SCITON - JOULE Operator Manual
SCITON - JOULE Operator Manual
SCITON - JOULE Operator Manual
Caution: In the United States, federal law restricts this device to sale by or on the order of a physician or any practitioner
licensed by state law to use or order the use of this device.
This manual is copyrighted with all rights reserved. Under the copyright laws, this manual may not be copied in whole or in
part or reproduced in any other media without the express written permission of Sciton, Inc. Permitted copies must carry
the same proprietary and copyright notices as were affixed to the original. Under the law, copying includes translation to
another language.
Please note that while every effort has been made to ensure the data given in this document is accurate, the information,
figures, illustrations, tables, specifications, and schematics contained herein are subject to change without notice.
Sciton, Inc.
925 Commercial Street
Palo Alto, California 94303, USA
(650) 493-9155
www.sciton.com
_____________________________________________________________
_____________________________________________________________
_____________________________________________________________
_____________________________________________________________
_____________________________________________________________
_____________________________________________________________
1.1 Introduction
To protect health care providers, operation and maintenance of the Joule system should only be performed by
personnel familiar with the safety information provided in this and other sections of this manual.
The laser systems are classified as Class IV lasers by the National Center for Devices and Radiological Health.
Class IV represents the highest power lasers; for this reason, the user must take precautions to prevent exposure
of laser energy to the eye and/or skin from either direct or diffused reflected laser beams, except as a therapeutic
application. In addition, precautions must be observed in the surgical environment to prevent fire and electrical
hazards.
Although the following precautions are extensive, they may not be complete. Laser users are advised to
supplement these precautions with information regarding technological advances in surgical products and
techniques as they become available to the medical laser user community through medical literature. See also the
American National Standard publications ANSI Z136.3 "American National Standard for the Safe Use of Lasers in
Health Care Facilities" and ANSI Z136.1 "American National Standard for Safe Use of Lasers.”
The treatment room door should be kept closed during operation of the Joule system. A warning sign should be
placed on the outside of the treatment room door when the system is in use to alert personnel before they enter
the controlled area. Protective eyewear should be placed outside the treatment room door for personnel to put on
before entering the room. The use of door interlocks is available to automatically disable the laser when the
treatment door is opened. All personnel inside the treatment room must wear protective eyewear when the system
is turned on. The following table specifies the correct eyewear:
A warning message is shown on the control panel display screen at turn on to confirm which wavelength has been
selected. The operator must acknowledge this screen before any further operation can take place.
To avoid risk of electrical shock, this equipment must be connected to supply mains with protective earth.
Never look directly into the treatment or aiming laser light source or scattered laser light from reflective surfaces.
Never look directly into the laser aperture or optical fiber tip when power is applied to the system, even when
wearing safety eye wear; severe and/or permanent eye damage could occur.
Do not use the system in the presence of flammables or explosives, such as volatile anesthetics, alcohol, certain
surgical preparation solutions and other such substances. Do not use the system before ensuring that treatment
drapes and gowns are made of flame retardant material.
Do not use the laser system with the attached delivery system if you cannot see the red aiming beam, as the
delivery system may be damaged. Such use may result in accidental laser exposure to health care providers or
patient, and/or fire in the treatment room.
_____________________________________________________________
Attention is drawn to the danger of ignition of endogenous gases. The flammability of methane gas must be
considered when treating in the perianal area.
In poorly ventilated treatment rooms, the use of a smoke evacuator should be considered. NIOSH and OSHA
recommend the use of a smoke evacuator during procedures that create smoke or plume. Therefore, it is highly
recommended that a smoke evacuator be used during all 2940nm Er:YAG procedures.
To avoid risk of electrical shock, this equipment must be connected to supply mains with protective earth.
Never open the system console protective covers. Opening the covers will expose the user to high voltage
components, and possible harmful radiation. Only Sciton-Certified Service Technicians shall work inside the
console.
This device meets the requirements of IEC 60601-1-2 for electromagnetic emissions (Class A) and immunity.
However, in order to avoid any potential electromagnetic or other interference with other sensitive electronic
equipment in your environment, do not operate these devices simultaneously.
The area around the system and footswitch should be kept dry. Do not place fluid-filled containers on top of the
system console. Do not operate the system if any of the power cords are faulty or frayed. The system should
undergo routine inspection and maintenance per standards. Sciton recommends an annual inspection and
preventive maintenance.
Never place hands or other objects in the path of the laser beam or pulsed light. Severe burns could occur.
Only the person directing the aim of the laser beam or pulsed light should have access to the footswitch. Use
caution depressing the footswitch when it is in proximity to footswitches for other equipment. Ensure the footswitch
depressed is the correct one to avoid accidental laser exposure.
_____________________________________________________________
Emission Indicator
The control panel display screen acts as an emission indicator. When the system is turned on, the display
illuminates as internal system tests are performed. When the self-test is complete, the screen displays
available applications. The user will select the desired application. Upon entering the desired application,
laser emission is set by selecting treatment parameters. In the Ready mode, the emission settings displayed
on the touch screen will be delivered upon activation of the footswitch.
Remote Interlock
A Remote interlock outlet is installed to allow the capability to disable the system if the treatment room doors
are opened. When utilized, opening the treatment room door activates the interlock and the system is
automatically disabled, the "Attach Interlock" advisory message appears on the control panel display screen,
and the system reverts to the Standby mode. To resume treatment, the message condition must be rectified
(e.g., the treatment door must be closed) and the operator must select the Ready mode. An interlock plug is
supplied with the system. If the interlock plug is removed, the system will be inoperative. Refer to ANSI
Z136.3 for recommendations on procedures to be used with Class IV lasers in controlled areas.
Protective Housing
The system has a protective housing, which prevents unintended human access to the laser radiation above
Class I limits. This housing is to be opened only by a Sciton-Certified Technician.
Safety Interlocks
No section of the protective housing can be easily opened without special tools. The optical assembly is to be
accessed only by a Sciton-Certified Technician. .
Locations of Controls
For safe access during operation, the controls are located on a swivel pedestal on top of the console.
_____________________________________________________________
Manual Reset
If system emission is externally interrupted during treatment (e.g., remote interlock activation) the system will
automatically go into “Standby” and the safety shutter will revert to a closed position. To resume treatment,
the system must be manually reset by pressing the screen and then selecting “Ready.”
_____________________________________________________________
The Joule system generates a highly concentrated beam of light that may cause injury if improperly used. This
entire manual should be carefully read and understood before operation. The Joule system is intended for use by
clinicians trained in the operation of lasers. Use of controls, adjustments or performance of procedures, other than those
specified herein, may result in hazardous laser radiation exposure.
Use extreme caution when moving system over threshold or on uneven surfaces to prevent it from
tilting over. Lock casters when equipment is not being moved.
2.2.1 Retract Articulated Delivery Arm and clamp. Tighten the Articulated Arm Locking Screw.
2.2.2 Turn OFF the main power circuit breaker located at the bottom of the back panel.
2.2.3 Remove the plug from the wall receptacle. Wrap the power cable around the cable wrap.
2.2.4 Remove the Footswitch plug from the footswitch receptacle. Stow the Footswitch on the
Footswitch Storage Mounts by turning the upper mount as shown below.
_____________________________________________________________
2.2.6 If using the remote interlock system, disconnect the cord and store it on the cable wrap.
Do not drag or pull the Footswitch by the cord when moving the laser system. Never use
the Articulated Arm or Display Screen to move the laser. The assistance of a second person is
required when moving the system up or down an incline.
2.2.7 Using the laser system handles, move the system to the desired site. Position Joule system a
minimum of 46 centimeters (18 inches) away from walls, furniture and other equipment.
Adequate space around the laser console will ensure sufficient air circulation for proper cooling.
Handle
2.3.2 Insert the Footswitch plug into the laser console Footswitch receptacle at the rear of the console.
The connector is NOT a screw in type. It is a locking push-in type requiring proper alignment of
the slot and key before insertion. Inappropriate forced rotation can damage the connector or
loosen the receptacle. There is a Magnetic Breakaway Connector located on the footswitch
cable near the laser console which will disconnect should excessive tension be applied to the
cable. If the Footswitch is not properly connected, upon startup the "Connect Footswitch"
advisory message will appear on the control panel display screen. The message will continue to
appear and the laser will remain inoperable until the Footswitch is properly connected.
2.4.1 The Remote Interlock receptacle, located on the back of the console, is provided to disable the
laser system if the treatment room doors are opened. A Remote Interlock plug is supplied with
the laser system. If the Remote Interlock plug is removed, the laser will not operate without the
proper Remote Interlock connections. Consult your local Sciton representative for help.
2.4.2 When installed, the Interlock is activated by opening the treatment room door. This automatically
disables the laser placing it into Standby and displaying the "Attach Interlock; Press Button to
Continue" advisory message on the control panel display screen.
2.4.3 To resume treatment, the treatment room door must be closed and the “Continue” softkey on the
control panel display screen must be selected. If the Remote Interlock is not installed on the
treatment room doors, removal of the Remote Interlock plug will result in the display of the above
_____________________________________________________________
Permanent damage to internal components will occur if improper coolant is used. Under no
circumstance should ethylene glycol, tap water or any liquid other than distilled or de-ionized (DI)
water be used.
Water circulates within the system to keep it cool. Should the water level fall below normal, a system
warning message will display on the control panel display screen. The message “Low Water Level Fault
1001” will occur upon start up and the message “Coolant Level Low Fault 51“ will occur during use,
indicating the need to add water to the system.
2.5.2 In the back of the laser there are two white quick disconnect connectors labeled VENT and
DRAIN/FILL. They are underneath the serial number and to the left of the power cable. See
picture below. With your laser you received a “Fill Funnel Kit” that consists of two hoses with
white connectors on one end. One is blue and it has a funnel at the other end, and the other one
is black.
2.5.3 First connect the blue hose with the funnel to the quick disconnect connector on the laser
labeled DRAIN/FILL. In order to prevent water from draining out of the hose when connected to
the laser, it is recommended that the hose be kept higher than the connector. To support the
funnel at the proper level, thread the hose between the handle and the console as shown.
2.5.4 Fill funnel with distilled or deionized water. Always keep water in the funnel to prevent air
bubbles from entering the hose.
2.5.5 Next, put the open end of the black hose into a bucket or trash can and connect the other end
into the quick disconnect connector on the laser labeled VENT.
2.5.6 Continue to add distilled water to the funnel and observe the black hose. Water will flow out at
first and then there will be a brief period where there is just air escaping from the hose.
2.5.7 Keep filling the funnel until a steady stream of water comes out of the hose with no air bubbles
present. The stream of water coming out of the black hose should be as fast as the water being
poured into the funnel.
2.5.8 Once the flow of water is correct, stop filling the funnel and disconnect both hoses from the
laser.
Funnel
Drain/Fill
Vent Connector Connector
Vent Hose
_____________________________________________________________
2.6.1 To drain the laser, reconnect the hoses but this time lower the Drain/Fill Hose to the ground and
let the water drain out.
2.6.2 On systems equipped with water piping located underneath the system (systems with
ProFractional), open the two drain valves located underneath the console by rotating the valves
90 degrees to the in-line position as shown below. Also disconnect the elbow connected to the
centrally located valve. Be sure to reconnect the elbow and close the valves before refilling.
Drain Valves
Elbow
2.7.1 Verify that the power cable and plug are properly connected.
2.7.3 Verify that the “Danger” warning sign has been posted outside of the treatment room door.
2.7.4 Ensure that the patient and all attending personnel in the treatment room are wearing appropriate
laser safety eyewear.
2.8.2 Ensure that the Emergency-Off button is released. If not, twist the button counterclockwise until
it springs up into the ready position.
2.8.3 Insert the key into the Key switch and turn clockwise to the “II” (START) position, hold it for one
full second, and release. Upon release, the spring-loaded Key switch rotates to the "" (ON)
position.
_____________________________________________________________
2.9.1 Turn the key switch to the “O” position to turn-off the system. Remove the
key to prevent unauthorized use of the system.
2.9.2 If desired, move the main power circuit breaker to the OFF position and
disconnect the main power cord from the electrical source. If the power
cord is still connected to the electrical source, some internal circuits will
remain energized.
_____________________________________________________________
When a delivery system option application softkey is touched, the system will initialize the selected delivery
system and enter into that application menu.
2940 nm Contour-TRL Module: The Contour module can be configured as a 1-head or 2-head
system. The wavelength is 2940 nm and has associated handpieces.
1319 nm ThermaScan Module: The ThermaScan module can be configured as a 1-head system.
The wavelength is 1319 nm and has associated handpieces and contact cooler.
1064 nm ClearScan YAG Module: The ClearScan YAG module can be configured as a 1-head or
2-head system. The wavelength is 1064 nm and has associated handpieces and contact cooler.
755 nm ClearScan ALX Module: The ClearScan ALX module is configured as a 1-head system.
The wavelength is 755 nm and has associated handpieces and contact cooler.
_____________________________________________________________
Endovascular Laser Treatment Module: The Endovascular Laser Treatment Module can be
configured as a 1-head system. The wavelength is 1319 nm and has an associated fiber delivery
system.
Broadband Light Module (BBL): The BBL module is a pulsed broadband light source. The
handpiece has the capability of using variable filters in a wide range of wavelengths.
TM TM
SkinTyte Module: The SkinTyte module uses the ST filter.
_____________________________________________________________
The Joule system uses an articulated arm or optical fiber to deliver laser energy and/or a BBL handpiece
assembly to deliver pulsed light energy.
Sciton handpieces are supplied non-sterile and require disinfection or sterilization prior to use.
Refer to section below on how to disinfect or sterilize handpiece.
Articulated Arm
Arm Base
3.1.1.2 Route the handpiece cable along the arm and attach using the cable clips.
Cable Clip
Hose Clip
Handpiece Cable
For systems with 755 nm, 1064 nm and 1319 nm wavelengths, the contact cooling hose
should be routed along the arm as well and attached using the hose clips.
_____________________________________________________________
3.1.1.3 If a handpiece or a scanner is not attached to the end of the articulated arm, the black dust
cap (as shown below) should be attached to prevent contamination of optics within the
articulated arm.
Dust Cap
_____________________________________________________________
Treatment Head
Flexible Cable
Interchangeable Filter
Connector
The following accessories are available with the Joule BBL system:
_____________________________________________________________
The Endovenous/ProLipo PLUS fiber delivery system consists of an open source optical fiber which
delivers laser energy at wavelengths of 1319 and 1064 nm. The fiber is approximately 3.5 meters long and
is terminated with high power SMA-905 connector for easy connection to the Endovenous/ProLipo PLUS
Fiber Focus Cell on the Joule console.
Optical Fiber
For Endovenous and ProLipo PLUS applications, the optical fiber assembly is packaged sterile for
single use and should not be re-sterilized or reused. Optical fibers are inherently fragile and so care should
be taken to avoid breakage due to excessive bending.
A blast shield is provided to minimize damage to optical components in the event of fiber failure. Should
this fiber failure occur remove the Blast Shield by pulling it out of the Fiber Focus Cell and examine the
glass surfaces. Presence of contamination indicates fiber failure and both the blast shield and the fiber
should be replaced. The laser will not operate without the blast shield in place.
_____________________________________________________________
_____________________________________________________________
_____________________________________________________________
_____________________________________________________________
Cooling Air Requirements Minimum 18 inches (46 centimeters) distance from walls
Cooling internal water-to-air heat exchanger.
System Dimensions
Width: 15 inches (38 cm)
Length: 32 inches (82 cm)
Height: 43 inches (110 cm)
System Weight Depends upon configuration, approx. 200 pounds (91 kilograms)
Rated Voltage 200-240 V~
Rated Frequency 50/60 Hz
Rated Current 25 A
Classification Class I, Type BF
Laser Output Class IV, 0.7-3 um, 100W, 75J, 200 ms
Light Output 300-1400 nm, 0-300J
Pulse Duration of individual pulse 0.5 to 1.5 ms
Pulse Interval 0.2 to 200 ms
Number of Pulses in a Pulse Train 2 to 10 individual pulses
Mains Connection IEC 306 connection or permanently installed
Power Cord Length 15 feet (4.6 meters)
Footswitch Cable Length 15 feet (4.6 meters)
Certification IEC 60601-1, IEC 60601-1-2, IEC 60601-1-4, IEC 601-2-22
Environmental Requirements
_____________________________________________________________
Except as otherwise specified herein, Seller warrants the Products commencing after full payment has been
received by the Seller:
(a) i) To be free from defects in material and workmanship for a period of time specified in the purchasing
terms and conditions and under such conditions as specified in Seller’s warranty for the individual
Product, or until twelve (12) months from shipment if a warranty for an individual Product is not specified,
and
ii) To perform in the manner and under the conditions as specified in Seller’s warranty for the individual
Product or until twelve (12) months from shipment if a warranty for an individual product is not specified.
(b) No representative or person is authorized to bind Seller for any obligations or liabilities beyond this
warranty in connection with the sale of Seller's goods. This warranty is made to the original purchaser
only at the original location and is non-transferable, and may only be modified or amended by a written
instrument signed by a duly authorized officer of Seller.
i) Goods or parts that are replaced or repaired under this warranty are warranted only for the remaining
unexpired portion of the original warranty period applicable to the specified product.
ii) Goods or parts that are replaced or repaired under this warranty because of normal wear or use, such
as contact plates, wear surfaces, and flashlamps are warranted on a monthly prorated basis only for the
remaining portion of the warranty as credit toward new replacement goods or parts.
iii) Optical coatings, filters, lenses, and mirrors will be repaired or replaced under this warranty if kept
clean according to manufacturer's instructions. Dirt or debris on the surface of such an item during usage
may cause thermal damage and void the warranty for such item.
iv) Third party items are warrantied by their manufacturer and are not covered by the Sciton system
warranty.
(c) These remedies are available only if Buyer notifies Seller in writing promptly upon discovery of the defect,
and in any event within the warranty period for the individual Product. Seller’s examination of such goods
discloses to Seller’s satisfaction that such defects actually exist and the goods have not been (i) repaired,
worked on, or altered by persons not authorized by Seller so as, in Seller’s sole judgment, to injure the
stability, reliability, or proper operation of such goods; (ii) subject to misuse, negligence or accident; or (iii)
connected, installed used or adjusted otherwise than in accordance with the instructions furnished by
Seller.
(d) All Products not requiring fixed installation which Buyer considers defective shall be returned to Seller’s
office as designated on the face hereof transportation costs prepaid and borne by Buyer (unless
otherwise provided on the face hereof). The risk of loss of the goods shipped or delivered to Seller’s
plant for repair or replacement will be borne by Buyer
(e) If it is found that any Product has been returned without cause and is still serviceable, Buyer will be
notified and the Product returned at Buyer’s expense, in addition, a charge for testing and examination
may, in Seller’s sole discretion, be made on Products so returned.
(f) NOTWITHSTANDING THE FOREGOING, IN NO EVENT WILL SELLER BE LIABLE FOR ANY
CONSEQUENTIAL DAMAGES (INCLUDING BUT NOT LIMITED TO LOSS OF USE OR LOSS OF
PROFITS) OR FOR ANY DAMAGES SUFFERED BY ANY THIRD PARTY.
(g) THE FOREGOING WARRANTY IS EXCLUSIVE AND IN LIEU OF ALL OTHER WARRANTIES
(EXCEPT FOR SPECIFIC WRITTEN PRODUCT PERFORMANCE GUARANTEES) WHETHER
WRITTEN, ORAL OR IMPLIED, INCLUDING ANY WARRANTY OR MERCHANTABILITY OR FITNESS
FOR A PARTICULAR PURPOSE, AND SHALL BE THE BUYER’S SOLE REMEDY AND SELLER’S
SOLE LIABILITY ON CONTRACT OR WARRANTY OR OTHERWISE FOR THE PRODUCT.
_____________________________________________________________
Maladjustment or damage to the beam delivery system can lead to considerable deviations of
the laser power incident on the patient from the laser power actually generated. It is therefore imperative that
the laser output actually emitted to tissue is checked by means of a calibrated laser power or laser energy
meter during regular inspections of the laser equipment.
No modification of this equipment is allowed. Do not modify this equipment without authorization of the
manufacturer. If this equipment is modified, appropriate inspection and testing must be conducted to ensure
continued safe use of the equipment.
Preventative maintenance should be performed annually by a Sciton field service engineer (FSE) to
ensure proper laser and/or pulsed-light performance. During this visit, the FSE will perform the following
checks:
a. Full optical alignment
b. Complete power/energy check and calibration
c. Cooling system inspection and replacement of all filters and cartridges
d. High and low voltage testing
e. Optical inspection and cleaning
f. Full user mode operational check of the laser system
g. Mechanical integrity check
h. Inspection of all accessories, filters and handpieces
Do not spray or pour cleaning solution directly on the control panel display screen, fiber
delivery port or the system console. Do not attempt to gain access to any internal components of
the console. Electrical shock and/or unintended laser exposure may result.
It may be necessary during the procedure to clean tissue debris from the scanner lens. To clean
the lens, gently wipe with a soft cotton swab or cloth that has been moistened with isopropyl
alcohol or sterile water.
_____________________________________________________________
Never spray anything directly on the handpiece or scanner. Never soak a handpiece or
scanner and place it under running liquid.
TM
Please note that the TempASSURE cannula (supplied with thermocouple) is a single
use device; do not reuse this device.
It is the responsibility of the medical practice to ensure that cleaning and sterilization is performed
using the appropriate method and materials, and that personnel have been adequately trained in
order to achieve the desired result. Any deviation from these instructions should be properly
evaluated for effectiveness to avoid potential adverse consequences.
Cleaning Procedure:
_____________________________________________________________
Allow to clean in ultrasonic tank filled with reverse osmosis (RO) or deionized (DI) water for a
minimum of 10 minutes.
Remove devices from the ultrasonic tank and rinse with RO/DI water. A syringe may be used to
aid in the rinsing.
Visually inspect each device for visible soil, while paying close attention to hard to reach areas,
ensuring that all soil has been removed.
Dry devices using a clean, lint-free cloth. Pressurized air (<20 psi) may be used to assist in the
drying.
Sterilization Procedure:
The following steam sterilization parameters, or those cleared at your medical practice for
autoclaving stainless steel and glass parts, should be used for sterilization.
Repair on the Joule system should be performed by a Sciton-Certified field service engineer. Contact
Sciton Service at 650-493-9155 if a repair is required.
Calibration of the Joule as described in the next section is to be performed only by Sciton-Certified field
service engineer. Calibration or other adjustment of this device by persons other than Sciton-Certified
field service engineer will result in the warranty of the unit being voided.
All equipment must be properly decontaminated before return to Sciton. Failure to perform
proper decontamination will result in delays and additional charges.
Contact your local recycling operator for separate collection or Sciton for appropriate disposal
information.
. Do not dispose laser console as unsorted municipal waste. End of life electronic equipment
must be collected separately to prevent harm to the environment or human health.
Used single use consumable items such as laser fibers should be disposed of according to your
institution’s protocol for disposal of medical waste.
_____________________________________________________________
The Food and Drug Administration (FDA) requires laser manufacturers of Class II and IV medical laser systems to supply
customers with power calibration procedures.
The calibration procedure for the Joule, a multi-wavelength system, is performed in multiple parts. The first is
written for the Joule Er:YAG calibration while the second portion is the Joule Nd:YAG calibration and the third is
for Joule Alexandrite.
8.2.1.1 Start the system and wait until it comes up into the Joule Delivery Selection screen. Enter
Service Mode by pressing and holding the service switch button on the CPU board.
Release the service switch when the keypad is displayed. Enter the service passcode with
the keypad to enter service mode.
8.2.1.2 Select “Lasers” from the main service screen, then select “Just Fire’em”. In the “Just
Fire’em” screen, select the Er laser by pressing “2940”. Once the “2940” is highlighted
select the red “X” in the “selected” column. You should now have a green check mark. Now
select the “Charger On/Off” to enable the high voltage power supply followed by selecting
“trigger simmer”. The “simmer” column will now have a check mark. The laser is now
simmering and the “X” in the “Gate” column needs to be selected to enable the Laser Gate.
This will now show a green checkmark.
8.2.1.3 Set up the power meter approximately 4 feet from the scanner and aim the scanner to the
center of the power meter head.
8.2.1.4 Er Laser Calibration Parameters:
Set the 2940nm pulse width (PW) to 0.250ms, “800V” (Cap Volt OUT), and
“25Hz”(Frequency) by selecting the parameters on the screen and using the Up/Down
arrow keys to set desired values.
8.2.1.5 Press “Return” to return to the Laser service menu.
8.2.1.6 Select “Calibration” to go to the calibration screen.
8.2.1.7 Select the Er Laser again by pressing “2940”.
8.2.1.8 Open the shutter by selecting “Toggle Shutter”.
8.2.1.9 Turn on idle lensing by selecting “Idle Lensing”.
_____________________________________________________________
This calibration procedure must be performed only after the lasers are properly aligned and all of the optics is
clean. The arm must be installed along with the HF, 6mm, or Duo Scanner. When the calibration has been
completed, the system must be reset or restarted before operating in the user mode.
8.3.1.1 Start the system and wait until it comes up into the Joule Delivery Selection screen. Enter
Service Mode by pressing and holding the service switch button on the CPU board.
Release the service switch when the keypad is displayed. Enter the service passcode with
the keypad to enter service mode.
8.3.1.2 Select “Lasers” from the main service screen, then select “Just Fire’em”. In the “Just
Fire’em” screen, select the 1064nm laser by pressing “1064”. Once the “1064” is
highlighted select the red “X” in the “selected” column. You should now have a green check
mark. Now select the “Charger On/Off” to enable the high voltage power supply followed by
selecting “trigger simmer”. The “simmer” column will now have a check mark. The laser is
now simmering and the “X” in the “Gate” column needs to be selected to enable the Laser
Gate. This will now show a green checkmark.
8.3.1.3 Set up the power meter approximately 1 foot from the scanner and aim the scanner to the
center of the power meter head.
8.3.1.4 1064nm Laser Calibration Parameters:
Set the 1064nm pulse width (PW) to 0.800ms, “800V” (Cap Volt OUT), and
“2Hz”(Frequency) by selecting the parameters on the screen and using the Up/Down arrow
keys to set desired values.
8.3.1.5 Press “Return” to return to the Laser service menu.
8.3.1.6 Select “Calibration” to go to the calibration screen.
8.3.1.7 Select the 1064nm Laser again by pressing “1064”.
8.3.1.8 Open the shutter by selecting “Toggle Shutter”.
8.3.1.9 Turn on idle lensing by selecting “Idle Lensing”.
8.3.1.10 Using an Oscilliscope, attach Oscilliscope probes to the main CPU board on TP1 (P1) and
TP2 (P2).
8.3.1.11 Depress footswitch and measure the amplitude of the signals. The signals should measure
5-6Volts. If the signals are high/low, select the “E2 Gain” box and adjust up/down
accordingly with the up/down arrows to achieve the correct amplitude.
8.3.1.12 Once the correct gain is achieved, select “Save” to save the new gain value.
8.3.1.13 Depress the footswitch and observe the “E1” and “E2” values. These values should be
approximately 2000 counts each. If the counts are high/low, select the “Attenuation” box
and increase/decrease the value with the up/down arrow. Verify the counts again by
depressing the footswitch. Repeat until the counts are approximately 2000 each.
8.3.1.14 When using 1064nm Nd:YAG, only fire the laser with Idle Lensing On if the shutter
is open. Damage to the Beam Combiner and Beam Pickoff Mirrors can occur.
_____________________________________________________________
The following steps are for 1319 Nd:YAG. This calibration procedure must be performed only after the lasers are
properly aligned and all of the optics is clean. The arm must be installed along with the HF/6mm Scanner. When
the calibration has been completed, the system must be reset or restarted before operating in the user mode.
8.4.1.1 Start the system and wait until it comes up into the Joule Delivery Selection screen. Enter
Service Mode by pressing and holding the service switch button on the CPU board.
Release the service switch when the keypad is displayed. Enter the service passcode with
the keypad to enter service mode.
8.4.1.2 Select “Lasers” from the main service screen, then select “Just Fire’em”. In the “Just
Fire’em” screen, select the 1319nm laser by pressing “1319”. Once the “1319” is
highlighted select the red “X” in the “selected” column. You should now have a green check
mark. Now select the “Charger On/Off” to enable the high voltage power supply followed by
selecting “trigger simmer”. The “simmer” column will now have a check mark. The laser is
now simmering and the “X” in the “Gate” column needs to be selected to enable the Laser
Gate. This will now show a green checkmark.
8.4.1.3 Set up the power meter approximately 1 foot from the scanner and aim the scanner to the
center of the power meter head.
8.4.1.4 1319nm Laser Calibration Parameters:
Set the 1319nm pulse width (PW) to 0.400ms, “800V”(Cap Volt OUT), and
“10Hz”(Frequency) by selecting the parameters on the screen and using the Up/Down
arrow keys to set desired values.
8.4.1.5 Press “Return” to return to the Laser service menu.
8.4.1.6 Select “Calibration” to go to the calibration screen.
8.4.1.7 Select the 1319nm Laser again by pressing “1319”.
8.4.1.8 Open the shutter by selecting “Toggle Shutter”.
8.4.1.9 Turn on idle lensing by selecting “Idle Lensing”.
8.4.1.10 Using an Oscilloscope, attach Oscilloscope probes to the main CPU board on TP1 (P1)
and TP2 (P2).
8.4.1.11 Depress footswitch and measure the amplitude of the signals. The signals should measure
5-6Volts. If the signals are high/low, select the “E2 Gain” box and adjust up/down
accordingly with the up/down arrows to achieve the correct amplitude.
8.4.1.12 Once the correct gain is achieved, select “Save” to save the new gain value.
8.4.1.13 Depress the footswitch and observe the “E1” and “E2” values. These values should be
approximately 2000 counts each. If the counts are high/low, select the “Attenuation” box
and increase/decrease the value with the up/down arrow. Verify the counts again by
depressing the footswitch. Repeat until the counts are approximately 2000 each.
8.4.1.14 When using 1319nm Nd:YAG, only fire the laser with Idle Lensing On if the shutter
is open. Damage to the Beam Combiner and Beam Pickoff Mirrors can occur.
8.4.1.15 Depress the footswitch once again and observe the value measured on the power meter.
After the power meter stabilizes, note its value and release the footswitch.
8.4.1.16 Select the box in the calibration screen labeled “Enter Output Power” and use the up/down
arrows to adjust the value to the power measured in the previous step. Now push
“calculate”. The Ablation Calibration Constant should have been updated.
8.4.1.17 Press “Save” to store the new calibration constant.
_____________________________________________________________
8.5.1.1 Start the system and wait until it comes up into the Joule Delivery Selection screen. Enter
Service Mode by pressing and holding the service switch button on the CPU board.
Release the service switch when the keypad is displayed. Enter the service passcode with
the keypad to enter service mode.
8.5.1.2 Select “Lasers” from the main service screen, then select “Just Fire’em”. In the “Just
Fire’em” screen, select the 1470 laser by pressing “1470”. Once the “1470” is highlighted
select the red “X” in the “selected” column. You should now have a green check mark. Now
select “trigger simmer”. The “simmer” column will now have a check mark. The laser is now
enabled and the “X” in the “Gate” column needs to be selected to enable the Laser Gate.
This will now show a green checkmark.
8.5.1.3 Set up the power meter approximately 1 inch from the scanner and aim the scanner to the
center of the power meter head.
8.5.1.4 1470 Laser Calibration Parameters:
Select the “CW” mode button to enable continuous pulse.
8.5.1.5 Open the shutter by selecting “Toggle Shutter”.
8.5.1.6 Depress the footswitch and observe the value measured on the power meter. After the
power meter stabilizes, note its value and release the footswitch.
8.5.1.7 Select the box labeled “Diode Power” and use the up/down arrows to adjust the value to
the power measured in the previous step. Now push “Return” to exit to the previous screen.
8.5.1.8 Select the “Head Config” button and next select “1470 MaxPwr” and verify the power
matches the value in the previous step.
8.5.1.9 Press “Save” to store the new calibration power.
This calibration procedure must be performed only after the lasers are properly aligned and all of the optics is
clean. The arm must be installed along with the Duo Scanner/handpiece. When the calibration has been
completed, the system must be reset or restarted before operating in the user mode.
8.6.1.1 Start the system and wait until it comes up into the Joule Delivery Selection screen. Enter
Service Mode by pressing and holding the service switch button on the CPU board.
Release the service switch when the keypad is displayed. Enter the service passcode with
the keypad to enter service mode.
8.6.1.2 Select “Lasers” from the main service screen, then select “Just Fire’em”. In the “Just
Fire’em” screen, select the 755nm laser by pressing “755”. Once the “755” is highlighted
select the red “X” in the “selected” column. You should now have a green check mark. Now
select the “Charger On/Off” to enable the high voltage power supply followed by selecting
“trigger simmer”. The “simmer” column will now have a check mark. The laser is now
simmering and the “X” in the “Gate” column needs to be selected to enable the Laser Gate.
This will now show a green checkmark.
8.6.1.3 Set up the power meter approximately 1 foot from the scanner and aim the scanner to the
center of the power meter head.
8.6.1.4 755nm Laser Calibration Parameters:
Set the 755nm pulse width (PW) to “0.500ms”, “700V” (Cap Volt OUT), and
“10Hz”(Frequency) by selecting the parameters on the screen and using the Up/Down
arrow keys to set desired values.
8.6.1.5 Press “Return” to return to the Laser service menu.
8.6.1.6 Select “Calibration” to go to the calibration screen.
_____________________________________________________________
8.6.1.14 When using 755nm Alexandrite, firing the laser with can only occur with Idle
Lensing. Damage to the 755nm Laser, Beam Combiner and Beam Pickoff Mirrors can
occur without Lensing.
8.6.1.15 Depress the footswitch once again and observe the value measured on the power meter.
After the power meter stabilizes, note its value and release the footswitch.
8.6.1.16 Select the box in the calibration screen labeled “Enter Output Power” and use the up/down
arrows to adjust the value to the power measured in the previous step. Now push
“calculate”. The Ablation Calibration Constant should have been updated.
Press “Save” to store the new calibration constant.
BBL module is responsible for measuring instantaneous current and voltage applied to the flashlamp for the
indicated time interval. The product of these values is the energy delivered to the lamp. Input lamp energy is
directly related to output lamp energy with a calibration constant that is measured and set during final test. The
energy is monitored continuously (shorter than the failure tolerance time) during the pulse while in operation.
During the startup test, both lamp current and lamp voltage are checked to verify proper operation of the voltage
and current sensors. These sensors are validated at startup and if inoperable will not allow the system to continue
to ready mode. In operation these sensors control the voltage and current being applied to the lamp.
The short wavelength boundary is defined by the absorption of the cerium doping of the flashlamp and flowtube
materials used in the system. Doping with cerium causes the materials to blocks all wavelengths below 385 nm.
An additional filter is inserted in the light path to further guarantee the lower wavelength limit.
Pulse timing and pulse duration is checked during maintenance at regular intervals.
Tools Needed: A calibrated 100 J or higher energy meter for broadband light at 300-1400 nm and a small
screwdriver.
The energy meter on the control panel display screen is calibrated to indicate the energy delivered to the distal
end of the handpiece. Under normal operating conditions, the system should be checked for calibration once a
year or whenever an optical component has been cleaned, replaced or adjusted, the energy monitor circuit
adjusted or the CPU board replaced. Sciton Service representatives check the calibration during each service call.
_____________________________________________________________
8.7.1.1 Set up the power meter according to the manufacturer’s recommendations and position the
sapphire waveguide so that the power meter head captures all the energy.
8.7.1.2 Start the system and wait until it comes up into the Joule Delivery Selection screen. Enter
Service Mode by pressing and holding the service switch button on the CPU board.
Release the service switch when the keypad is displayed. Enter the service passcode with
the keypad to enter service mode.
8.7.1.3 Select “BBL” from the main service screen.
8.7.1.4 Select “Just Fire” and increase voltage to start voltage.
8.7.1.5 Select “BBL Interface”. Enable “PWR”, “HV SWITCH” and strike lamp.
8.7.1.6 Return to “Just Fire” menu and select “ON” for Slot number 1.
8.7.1.7 Increase “NUM” to 5 with 1.5 ms pulse spacing and verify pulse width equals 1 ms
8.7.1.8 Install the 590 nm filter into the handpiece and depress footswitch to fire one pulse into the
energy meter. The total output energy should be at approximately 100 Joules for accurate
calibration. Increase or decrease the pulse width to adjust the energy.
8.7.1.9 Depress the footswitch again to fire the flashlamp into the energy meter. Adjust R4 on BBL
Integrator PCB so that integrated energy is equal to measured energy.
8.7.1.10 Select “Calibrate Pyro’s” from the menu selection. Verify Auto Enter =On
8.7.1.11 Remove filter from handpiece to calibrate for system efficiency.
8.7.1.12 Depress the footswitch to fire the flashlamp. Enter the energy displayed on energy meter
using the keypad provided on the touch screen, then push “Enter.” The efficiency and
calibration constant will now be updated to the correct value.
8.7.1.13 Install the 515 nm filter and repeat 6.5.1.10.
8.7.1.14 Repeat 6.5.1.10 for each of the filters installed verifying filter selected is displayed on touch
screen.
8.7.1.15 Reinitialize the system by turning the key switch OFF and then return it to the ON position.
8.7.1.16 The system is ready to use.
_____________________________________________________________
Sciton handpieces are supplied non-sterile and require disinfection or sterilization prior to use. Reference
“Maintenance” section on how to disinfect or sterilize a handpiece.
_____________________________________________________________
Pressing the ClearScan ALX 755 nm softkey will allow the user to enter into the ClearScan ALX 755 nm
Applications screen.
2 3
4
5
1. Application Header
Application Header displays the selected ClearScan ALX 755 nm application.
2. Scanner application softkey.
Attach Duo Scanner with Contact Cooler connected and press the Scanner softkey to enter the
755 nm hair reduction user screen.
3. Single Spot application softkey
Starting settings for single spot hair reduction must be obtained in the Scanner applications
screen and then applied to the Single Spot screen. Attach the 6 mm single spot handpiece with
_____________________________________________________________
2 5
4 6
3
8 7
9.2.2 Contraindications
The ClearScan ALX 755 nm Alexandrite laser system is contraindicated for:
Patients who take medication which is known to increase sensitivity to sunlight
Patients with infectious disease
Patients with connective tissue disease
Patients who are immunocompromised
Patients who are pregnant
Patients who have used isotretinoin (Accutane) within the past 6 - 12 months
Patients with a medical condition that may affect wound healing
Patients with bleeding abnormalities
_____________________________________________________________
9.2.4 Warnings
In pretreatment work-ups, screen lesions that are located in close proximity to known arteries or
veins in order to locate these circulatory structures.
Water condensation on the upper surface of the contact cooling plate of the Duo Scanner may
result in laser beam scattering and an incorrect setting for fluence. Treating the top of the plate with
a surfactant, such as Sea Drops, will reduce scattering due to condensation.
A dirty chill plate may lead to an incorrect setting for fluence. Clean the chill plate with a soft cotton
gauze moistened with alcohol prior to each treatment and throughout extended, lengthy
treatments.
Check the chill plate temperature prior to each treatment. The risk of epidermal injury, such as
blistering, increases if the temperature of the chill plate is too warm.
Tattooed areas, and the area of skin 4-5 mm outside of the tattoo in all directions, should not be
treated. Tattoo ink may absorb laser energy resulting in a color change of the tattoo ink or a risk of
epidermal damage.
Darkened moles should not be treated. Moles may absorb laser energy causing a color change of
the mole resulting in the inability to monitor the mole under ABCD guidelines for melanoma
detection. Excess energy may also be absorbed into the mole resulting in the risk of epidermal
damage.
Do not stack pulses or overlap consecutive scans. Repeated pulses in the same location,
improper chill plate placement, repeated scans, improper cooling temperatures, or excessive
fluence may lead to a buildup of subsurface heat and a subsequent blister or burn.
There is a risk of “paradoxical effect” resulting from the activation of dormant hair follicles in
untreated areas close to hirsute-treated areas in subjects with facial hirsutism, which is diagnosed
with polycystic ovarian syndrome and presenting ovarian hyperandrogenism. Basically, treatment
with ClearScan ALX 755 nm can stimulate hair growth.
Do not allow combustibles or flammables, including drapes and paper panties, in the laser
treatment area. Fire prevention/control methods should be in place.
Absorption Curve
Absorption curve shows the relationship of the variation in absorbed laser light as a function of
wavelength. The graphic shows absorption spectra of major intracellular absorbers. The molecular
absorption coefficients of oxygenated hemoglobin, melanin and water are shown.
Depth of Penetration
Depth of penetration of laser energy for different types of lasers is also illustrated.
_____________________________________________________________
Pulse width is the amount of time that the target is exposed to the heat and is typically measured in
milliseconds (ms). Pulse width must be less than the Thermal Relaxation Time (TRT) of the target. In
other words, the pulse width must be long enough to allow heating of the target but also short enough that
the target can cool so that there is no heat buildup in surrounding skin and tissue. The cooling time of a
target is relative to its size, structure and density. Larger targets take longer to cool than smaller ones.
Likewise, a very densely pigmented target will cool down slower than a target with less concentrated
pigment. Refer to ClearScan ALX 755 nm Treatment Starting Parameters for safe start pulse width
parameters.
Fluence is the amount of heat or energy delivered into the target. Fluence is measured in units of
Joules/cm2. Refer to ClearScan ALX 755 nm Treatment Starting Parameters for safe start fluence
parameters.
_____________________________________________________________
Surface Cooling
ClearScan ALX 755 nm integrates a powerful 250 Watt external cooling system that connects to the 7 mm
Scanner, paddle or single spot chill plates in order to keep the treatment area cool. Skin surface
temperature changes of 1 °C can cause immediately observable differences in the clinical response.
External Cooling Systems: A black or white version of the external chiller may have been supplied with
your system. Refer to Appendix I for operating instructions, including instructions for attaching the chiller
hose.
All chill plates are all made of 100% sapphire. Each chill plate consists of two sapphire plates that are
sandwiched together. When connected to the external Contact Cooler, Chiller Mixture flows from the
cooler, through the chiller hose, down the chill plate tubing and between the two sapphire plates. The
Chiller Mixture continues up the opposite tube on the chill plate and then recycled back through the contact
cooler.
Single spot chill plate Paddle chill plate Integrated Scanner with chill plate
The chill plate should be in complete contact with skin throughout the entire scan or pulse to ensure that
skin is protected before, during and after a pulse or scan pattern is delivered.
Although absorption of the ClearScan ALX 755 nm energy into a certain chromophore is desirable, some
epidermal cooling is necessary to protect the skin. Refer to ClearScan ALX 755 nm Starting Parameters
for temperature setting of the external cooling system.
Continuous observation of skin during a ClearScan ALX 755 nm treatment is critical and will ensure
appropriate fluence, pulse width and temperature settings have been selected and that skin integrity has
not been compromised.
_____________________________________________________________
9.2.6.1 Consultation/Education
A consultation is essential in order to establish realistic expectations and to gain a full
understanding of the patient and his/her treatment goals. The patient must understand the
procedure, pre and post care instructions, expectations, contraindications and possible
complications prior to beginning any treatment.
Type Hair Color Skin Color & Ethnic Eye Sun Reaction
Background Color
_____________________________________________________________
9.2.6.5 Photographs
Pictures should be taken prior to each treatment to document the progress of the treatment.
Photographs are useful in demonstrating efficacy of treatment to the patient.
Camera settings, distance, backdrop, and body/face angle, position and expression should
be the same for each photography session to maintain similar quality.
The patient should sign a photo release form if before and after pictures are to be used for
educational or marketing purposes.
_____________________________________________________________
The theory of Selective Photothermolysis explains how wavelength, energy and pulse width in
relation to Thermal Relaxation Time (TRT) all play a role in the destruction of a target and the
preservation of surrounding tissue.
Using the theory of selective photothermolysis, unwanted hair can be treated with the ClearScan ALX
755 nm and appropriate settings that will cause selective absorption of laser light in the melanin of
hair. The light travels down the hair shaft and into the bulb of the follicle where the blood supply to
the follicle is located. The absorption converts light into heat energy, which raises the temperature of
the bulb causing the blood vessels that supply blood and other necessary nutrients to the follicle to be
cauterized. As a result, hair growth is no longer possible. This process should happen selectively and
without damage being done to the epidermis or surrounding tissue.
Duo Scanner
The Duo Scanner has a contact cooling chill plate assembly attached to it. The assembly is
comprised of two sapphire plates that are separated by continuously flowing Chiller Mixture. The spot
placement is achieved by using two galvanometer motors for x-axis and y-axis displacement.
5 x 5 pattern
The Duo Scanner precisely places each pulse in a non-sequential pattern to eliminate improper
placement of individual pulses. It also maximizes the time interval between adjacent spots and
minimizes subsurface heat buildup.
The Duo Scanner allows for complete and uniform application of the laser energy by delivering 7 mm
spots of energy within a designated pattern shape and size. The pattern can be adjusted from a 1 x 1
(single spot) to a 5 x 5 with any variation in between. A 5 x 5 pattern is illustrated above.
Aiming beam is represented by red box and shows the user the area to be treated. The energy will be
delivered inside the red box. When the red box is “dancing” the system is in Standby. When the red
box is solid the system is in Ready.
Standby Ready
Care should to be taken to apply adjoining scans without gap or excessive overlap of the previously
scanned area. A visual picture of where the next scan pattern should be placed, or looking at the
tracks in the gel, will assist in lining each scan pattern up to each other to avoid gap or overlap as
shown above.
To achieve safe, uniform treatment as shown, the Duo Scanner should be held so that the red box
within the chill plate window is in complete contact with the skin at all times.
_____________________________________________________________
Attach the Duo Scanner to the articulated arm. Press the Scanner softkey on the ClearScan ALX 755
nm Applications screen and the system will enter the ClearScan ALX 755 nm hair reduction
application screen.
1
2
9 10
4 6 8
3 5 7
15
11 13 14
12 16
18
19
21 20 17
The ClearScan ALX 755 nm user screen allows the user to adjust treatment settings. The available
functions are described below.
1. Wavelength indicator
Wavelength indicator shows which wavelength is being used for the treatment.
2. Handpiece indicator
Handpiece indicator shows which handpiece is being used for the treatment.
3. Fluence indicator
Fluence indicator shows the amount of fluence or energy being delivered per 7 mm spot within
whatever size or shape scan pattern has been selected. Fluence is measured in joules per
centimeter squared, J/cm2.
4. Fluence adjustment softkeys
Fluence adjustment softkeys allow the user to increase or decrease fluence by 1 J/cm2 by
tapping or holding down the up ▲ or down ▼ arrow softkeys.
5. Pulse width indicator
Pulse width indicator shows the length of time the energy is being delivered per 7 mm spot
within whatever size or shape scan pattern has been selected. Pulse width is measured in
milliseconds (ms).
6. Pulse width adjustment softkeys
Pulse width adjustment softkeys allow the user to increase or decrease pulse width by 5 ms by
tapping or holding down the up ▲ or down ▼arrow softkeys.
7. Spot placement rate
Spot placement rate is the speed at which each 7 mm spot is being delivered within the scan
pattern. The speed is measured in Hz. The maximum rate is automatically limited by the laser
based on the fluence and pulse width.
8. Spot placement rate adjustment softkeys
Spot placement rate adjustment softkeys allow the user to increase or decrease the rate at
which each 7 mm spot is being delivered by 0.5 Hz by tapping or holding down the up ▲ or
down ▼arrow softkeys
9. Horizontal pattern selection softkeys
The horizontal pattern selection softkeys allow the user to increase or decrease the horizontal
size of the pattern from 1 to 5 spots.
10. Vertical pattern selection softkeys
The vertical pattern selection softkeys allow the user to increase or decrease the vertical size of
the pattern from 1 to 5 spots.
11. Hair reduction quick set settings section indicator
The hair reduction quick set settings section allows the user to select Skin Type I-IV (1 - 4), Hair
Color (Blonde, Brn/Red or Black) and Hair Type (Fine, Medium or Coarse) of the patient in the
area being treated. The laser will automatically set the laser to safe start settings of fluence,
pulse width and rate.
12. Skin type selection softkeys
Skin type selection softkeys allow the user to choose skin type I, II, III, or IV by tapping or
holding down the up or down arrow softkeys.
_____________________________________________________________
Surface Cooling
When performing ClearScan ALX 755 nm Hair Reduction, the use of a contact cooler is critical for
ensuring patient safety.
Quick-disconnect
fittings at scanner
Quick-disconnect
fittings on chiller hose
Attach two quick-disconnect fittings at one end of the chiller hose to the chiller and the other two
quick-disconnect fittings at the other end of the hose to the Duo Scanner. Make sure that the chiller is
filled with Chiller Mixture (20% methanol in deionized water). Connect the power cable and turn on
the switch at the back of the chiller.
If the contact cooler is turned on prior to the scanner being attached, the cooler will emit an
alarm noise. This alarm is also emitted if there is kink or anything wrong with the hose that could
prevent Chiller Mixture from flowing through the connection tubes and then recirculated back through
the cooler. If this alarm is heard while treating a patient, stop the treatment and evaluate why Chiller
Mixture is not flowing. If Chiller Mixture is not flowing through the contact cooler hose and through the
chill plate, the patient is not getting adequate cooling. This inadequate cooling could lead to a blister
or burn.
Set the temperature to the desired temperature and wait a few minutes until the desired setpoint is
reached.
_____________________________________________________________
Hair revolves through three phases of growth: anagen, catagen and telogen. It is only during the
growing phase, anagen, that hair reacts to ClearScan ALX 755 nm light. Not all hair present in an
area is in the anagen phase at the same time. Duration of hair growth cycles depends on the body
location being treated. Multiple treatments are necessary over a time span of typically 4-8 week
intervals to remove hair from most areas.
Reference Richards-Merhag Chart in the Appendix of this manual.
anagen: The phase of the hair cycle during which synthesis of hair takes place. This is
the active growing phase in which the hair bulb is intact.
catagen: Brief intermediate phase between anagen and telogen. During this phase,
the body absorbs the lower third of the follicle.
telogen: This is the resting phase. The hair bulb is no longer present. It is now a club hair, which will
fall out or be pushed out of the follicle by a new anagen growing hair.
Fluence
Refer to Treatment Starting Parameters as noted below or the Hair Reduction quick set settings
section on the control panel display screen for appropriate fluence selection.
Targets that are darker absorb more energy/heat and will reach higher temperatures much quicker
than targets that are lighter in color. Therefore, darker hair, and areas where there is more
concentrated areas of dark hair growth, require less fluence than lighter colored hair in less
concentrated areas of light colored hair growth to reach the same therapeutic level.
As treatments progress through a series, fluence settings will need to be changed. If effective
treatments are being provided each treatment session, hair should be getting lighter in color,
therefore fluence will need to be increased to compensate for a less melanin rich target in which the
light can be absorbed.
Pulse Width
Refer to ClearScan ALX 755 nm Treatment Starting Parameters as noted below or the Hair
Reduction quick set settings section on the control panel display screen for appropriate pulse width
selection.
_____________________________________________________________
Cooling
5°-10°C is recommended for maximum patient comfort. Treating with higher temperatures will require
treating with lower fluence settings.
Note: The cooling temperature is set on the external contact cooler and not on the control
panel display screen.
The area within the selected red box on the Duo Scanner chill plate should be in complete contact
with skin throughout the entire scan to ensure that skin is protected before, during and after a scan
pattern is delivered.
Always test the chill plate window for desired level of chilling before beginning any laser
treatment. The risk of epidermal injury such as blistering increases with ineffective cooling.
Treatment Basics
Hair that is present in the area to be treated should be shaved prior to treatment. There should be
no more than 0.5 mm hair growth, or very minimal stubble, present in treatment area. The longer
the hair, the greater the risk of burning the hair to the patients skin and also “pitting” or damaging
the Duo Scanner chill plate window.
Patient should be positioned based on the area to be treated. The position should be comfortable
to the patient and such that the treatment provider has good access to the area to be treated and
the system control panel display screen.
When treating a patient’s upper lip, a mouth guard or a 2 x 2 piece of gauze should be placed
between the teeth and upper lip.
A mild cleanser or alcohol gauze should be used to remove any dirt, makeup, deodorant or
moisture from the treatment site.
If topical anesthetic is to be used, apply as directed prior to treatment. Before beginning treatment,
ensure that topical has been completely removed from surface of skin.
Apply 2-3 mm thickness of colorless gel to area to be treated. The gel should be used in
conjunction with the 755 nm wavelength for optimal heat removal to help protect the epidermis, as
well as improved optical coupling and lubrication for sliding the chill plate over skin. The gel also
simulates contact with the skin and reduces the risk of “pitting” or damage to the Duo Scanner chill
plate window.
Connect the Duo Scanner to the articulated arm.
Water condensation on the upper surface of the chill plate may result in laser beam scattering and
an incorrect setting for fluence. Apply the surfactant, Sea Drops, to the upper side of the Duo
Scanner chill plate window before turning on the external Contact Cooler. Reapply as needed.
_____________________________________________________________
If the Contact Cooler is turned on prior to the scanner being attached, the cooler will emit
an alarm noise. This alarm is also emitted if there is kink or anything wrong with the hose that could
prevent Chiller Mixture from flowing through the connection tubes and then recirculated back
through the cooler. If this alarm is heard while treating a patient, stop the treatment and evaluate
why Chiller Mixture is not flowing. If Chiller Mixture is not flowing through the contact cooler hose
and through the chill plate, the patient is not getting adequate cooling. This inadequate cooling
could lead to a blister or burn.
Select appropriate temperature setting. Refer to ClearScan ALX 755 nm Hair Reduction Treatment
Starting Parameters.
Note: Always test the chill plate window for desired level of chilling before beginning any laser
treatment. The risk of epidermal injury, such as blistering, increases with decreased or ineffective
cooling.
Eye protection should always be worn by everyone present in the treatment room during
any laser or light based treatment. When treating on the patient’s face, they should always wear
external, matte-finish metal goggles.
It is not recommended that any ClearScan ALX 755 nm treatment be performed within the orbital
rim due to the high risk of retinal damage.
Select starting settings based on ClearScan ALX 755 nm Hair Reduction Treatment Starting
Parameters noted below or the Hair Reduction quick set settings section on the control panel
display screen.
The Duo Scanner should be held perpendicular to the surface of the skin at all times. Move patient
if necessary to accomplish this 90 degree angle. All areas of the chill plate within the red box,
should be in complete contact with skin at all times throughout entire scan. For highly curved
areas, select a smaller scan pattern or select Pattern Center to offset the pattern to the top edge of
the chill plate to ensure that treatment area inside the red box is completely flat on skin.
Treating Test Area: Treating a test area prior to beginning treatment will determine the patient’s
response threshold and help establish safe and effective treatment parameters.
Select test settings using the ClearScan ALX 755 nm Hair Reduction Treatment Starting
Parameters below or the Hair Reduction quick set settings section on the control panel display
screen.
Set the scan pattern size to 2 x 2 or 3 x 3 especially if the treatment area is small. This will allow
adequate area for test spots rather than treating the entire area.
Depress the foot switch to deliver the entire scan pattern. Another scan pattern will not be
delivered unless the footswitch is depressed again or if repeat is turned on.
During delivery of scan pattern, observe for endpoints; sparking, smell of burning hair, patient’s
report of a mild to moderate heat sensation in the area being treated and mild to moderate
follicular erythema and edema.
If desired endpoints are observed with no adverse effects, treatment can be continued until area
is completed.
If endpoints are not noted, increase the intensity of treatment by the following actions, in the
following order (make only one change per test pulse):
Increase fluence by 1 - 2 J/cm2
Decrease pulse width by 5 - 10 ms
If reaction to test spot is too severe (intense erythema, purpura, immediate white or grey
presentation of skin), the settings should be decreased in intensity by the following actions, in
the following order:
Decrease fluence by 1-2 J/cm2 depending on intensity of reaction
Increase pulse width by 5 - 10 ms depending on intensity of reaction
Match the trailing edge of one scan pattern to the leading edge of the next. There should be
no overlap between scans. Scan patterns should “line up” right next to each other.
_____________________________________________________________
Face I – II 21 - 25 15 - 18
5° - 10° C
III-IV 18 - 22 17 - 20
Body I – II 16 - 20 20 - 23
5° - 10° C
III-IV 12 - 18 22 - 25
Pseudofolliculitis I – II 11 - 15 30 - 33
Barbae (PFB) 5° - 10° C
III-IV 8 - 12 32 - 35
Note:
In areas where skin is thinner and the bone is closer to the surface; jaw line, clavicle,
shins, shoulders, knees, toes etc., fluence should be decrease by 20%.
Fluence should be decreased when treating thicker hair.
Endpoints
Sparking – the hair shaft should flash when instantly heated by the laser pulse.
Mild to moderate discomfort.
Smell of success (SOS) – hair has a unique and very noticeable odor when it is heated during the
laser pulse.
Slight follicular edema and erythema within 2 - 5 minutes after treatment that resolves within 1 - 4
hours of treatment.
Post Treatment
Observation – Erythema and follicular edema for several hours after treatment. Treated hairs can
take up to 7 - 14 days to exfoliate from the follicle and may appear to be “growing” during this time,
however there is a possibility that hair will extrude from the follicle during treatment.
Intervention – Cool compresses or ice packs can provide some comfort after treatment. If
blistering occurs, aggressive wound healing measures should be implemented.
Interval - Treatments are performed 4 - 8 weeks apart. 5 - 7 treatments may be required.
If performing hair reduction treatments in conjunction with other procedures such as MLP or
ProFractional, perform hair reduction first.
Check with manufacturer for guidelines on using injectables in conjunction with ClearScan ALX 755
nm hair reduction treatments.
_____________________________________________________________
The ClearScan ALX 755 nm Hair Reduction Treatment protocol is utilized when treating individual
hairs.
The 6 mm single spot handpiece is used for ClearScan ALX 755 nm Single Hair Reduction
treatments.
When selecting settings for ClearScan ALX 755 nm Single Hair Reduction Treatments, the user can
either enter the ClearScan ALX 755 nm Scanner Applications User Screen and use the Hair
Reduction Quick Set Settings Section or refer to the ClearScan ALX 755 nm Hair Reduction
Treatment Starting Parameters noted above.
Attach the 6 mm single spot handpiece to the articulated arm. Press the Single Spot softkey on the
ClearScan ALX 755 nm Applications screen and the system will enter the ALX 755 nm application
screen.
1
2
4 9
6 7 8
3 5
10
14 13 12
11
The ALX 755 nm user screen allows the user to adjust treatment settings. The available functions are
described below.
1. Wavelength indicator
Wavelength indicator shows which wavelength is being used for the treatment.
2. Handpiece spot size indicator
Handpiece spot size indicates that the 6 mm single spot handpiece is attached to the articulated
arm.
3. Fluence indicator
Fluence indicator shows the amount of fluence or energy being delivered. Fluence is measured in
joules per centimeter squared, J/cm2.
4. Fluence adjustment softkeys
Fluence adjustment softkeys allow the user to increase or decrease fluence by 1 J/cm2 by
tapping or holding down the up ▲ or down ▼arrow softkeys.
5. Pulse width indicator
Pulse width indicator shows the length of time the energy is being delivered per 6 mm spot. Pulse
width is measured in milliseconds (ms).
6. Pulse width adjustment softkeys
Pulse width adjustment softkeys allow the user to increase or decrease pulse width by 5 ms by
tapping or holding down the up ▲ or down ▼ arrow softkeys.
7. Repetition rate indicator
Repetition rate is the amount of time between each single spot delivery when the footswitch is
held down continuously. The rate is measured in Hz
_____________________________________________________________
Surface Cooling
When performing ClearScan ALX 755 nm Single Hair Reduction treatments, the use of a contact
cooler is critical for ensuring patient safety.
Either the paddle chill plate or the single spot chill plate can be used for the treatment.
The bayonet distance guide assures that proper distance from the paddle chill plate is maintained
throughout the treatment for accurate spot size delivery.
Refer to ClearScan ALX 755 nm Hair Reduction Treatment protocol for Treatment Basics and
ClearScan ALX 755 nm Hair Reduction Treatment Starting Parameters for safe start settings.
_____________________________________________________________
Pressing the 1064 nm ClearScan softkey will allow the user to enter into the 1064 nm Applications screen.
1
5
2 3 4
1. Application Header
Application Header displays the selected 1064 nm application.
2. Scanner application softkey.
Attach 5 mm HF Scanner with Contact Cooler connected and press the softkey to enter the Hair
reduction user screen.
3. Single Spot application softkey
When treating vessels using the Vascular Lesion protocol, attach the 3 mm or 6 mm single spot
_____________________________________________________________
4 6
2
8 7
_____________________________________________________________
9.3.3 Complications
Complications, though rare, occasionally occur and should be discussed and understood. The patient
must understand the importance of the post care instructions and that failure to comply may increase
the probability of complications.
Scarring, though rare can occur following any laser procedure.
Blistering during treatment may be an indication of recent sun exposure or too high a fluence for
the skin type. Blistering can occur during the first three days following the laser procedure.
Blistered areas should be treated with care and kept moist with an ointment until area has healed.
Histamine/Hives: some patients develop raised papules similar to hives. This irritation usually
subsides within in a few hours after the treatment.
Pigmentary changes: hyperpigmentation or hypopigmentation are rare when treating with a 1064
nm wavelength.
9.3.4 Warnings
In pretreatment work-ups, screen lesions that are located in close proximity to known arteries or
veins in order to locate these circulatory structures.
Water condensation on the upper surface of the contact cooling plate may result in laser beam
scattering and an incorrect setting for fluence. Treating the top of the plate with a surfactant, such
as Sea Drops, will reduce scattering due to condensation.
A dirty chill plate may lead to an incorrect setting for fluence. Clean the chill plate with a soft cotton
gauze moistened with alcohol prior to each treatment and throughout extended, lengthy
treatments. Allow alcohol to dry before continuing with treatment.
Check the chill plate temperature prior to each treatment. The risk of epidermal injury, such as
blistering, increases if the temperature of the chill plate is too warm or if the chill plate is too cold.
Tattooed areas, and the area of skin 4-5 mm outside of the tattoo in all directions, should not be
treated. Tattoo ink may absorb laser energy resulting in a color change of the tattoo ink or a risk of
epidermal damage.
Darkened moles should not be treated. Moles may absorb laser energy causing a color change of
the mole resulting in the inability to monitor the mole under ABCD guidelines for melanoma
detection. Excess energy may also be absorbed into the mole resulting in the risk of epidermal
damage.
Do not stack pulses or overlap consecutive scans. Repeated pulses in the same location, improper
chill plate placement, repeated scans, improper cooling temperatures, or excessive fluence may
lead to a buildup of subsurface heat and a subsequent blister or burn.
Do not allow combustibles or flammables, including drapes and paper panties, in the laser
treatment area. Fire prevention/control methods should be in place.
_____________________________________________________________
Absorption curve shows the relationship of the variation in absorbed laser light as a function of
wavelength. The graphic shows absorption spectra of major intracellular absorbers. The molecular
absorption coefficients of oxygenated hemoglobin, melanin and water are shown.
Depth of Penetration
Depth of penetration of laser energy for different types of lasers is also illustrated.
_____________________________________________________________
_____________________________________________________________
Fluence is the amount of heat or energy delivered into the target. Fluence is measured in units of
Joules/cm2. Refer to ClearScan Treatment Starting Parameters for safe start fluence parameters.
The higher the fluence selected, the higher the temperature of the target, the surrounding tissue and the
epidermis. Treating with excess energy can result in adverse effects such as abnormal pigmentation,
blistering and scarring.
Patient response can vary, so the fluence setting should begin low and be increased gradually after
assessing the individual patient response and observation of endpoints desired.
Wavelength is the spatial period of a wave from peak of one wave to the peak of the next. Photons of
1064 nm are preferentially absorbed by the target chromophores of melanin and hemoglobin.
Surface Cooling
ClearScan YAG 1064 nm integrates a powerful 250 Watt external cooling system that connects to the 5
mm HF Scanner, paddle or single spot chill plates in order to keep the treatment area cool. Skin surface
temperature changes of 1 °C can cause immediately observable differences in the clinical response.
External Cooling Systems: A black or white version of the external chiller may have been supplied with
your system. Refer to Appendix I for operating instructions, including instructions for attaching the chiller
hose.
All chill plates are all made of 100% sapphire. Each chill plate consists of two sapphire plates that are
sandwiched together. When connected to the external Contact Cooler, water flows from the cooler,
through the chiller hose, down the chill plate tubing and between the two sapphire plates. The water
continues up the opposite tube on the chill plate and then recycled back through the contact cooler.
Single spot chill plate Paddle chill plate 5 mm HF Scanner with chill plate
_____________________________________________________________
Although absorption of the1064 nm Nd:YAG energy into a certain chromophore is desirable, some
epidermal cooling is necessary to protect the skin. Refer to Starting Parameters for temperature setting of
the external cooling system.
Continuous observation of skin during a ClearScan YAG 1064 nm ClearScan treatment is critical and will
ensure appropriate fluence, pulse width and temperature settings have been selected and that skin
integrity has not been compromised.
9.3.6.1 Consultation/Education
A consultation is essential in order to establish realistic expectations and to gain a full
understanding of the patient and his/her treatment goals. The patient must understand the
procedure, pre and post care instructions, expectations, contraindications and possible
complications prior to beginning any treatment.
Skin type V is the most under-typed skin. Often Asian skin will look very light and
have no history of sun exposure. Occasionally they have “bleached” their skin with
hydroquinone. Treating them as a III or IV (based on look and reaction to sun) could result
in higher risk of complications. Initially, all Asian skin should be treated as a Skin Type V
until reaction to laser light has been determined.
Similarly, not all black skins are of the same degree of darkness and there may be the
temptation to type these patients as a lower type.
_____________________________________________________________
9.3.6.5 Photographs
Pictures should be taken prior to each treatment to document the progress of the treatment.
Photographs are useful in demonstrating efficacy of treatment to the patient.
Camera settings, distance, backdrop, and body/face angle, position and expression should
be the same for each photography session to maintain similar quality.
The patient should sign a photo release form if before and after pictures are to be used for
educational or marketing purposes.
_____________________________________________________________
_____________________________________________________________
The theory of Selective Photothermolysis explains how wavelength, energy and pulse width in
relation to Thermal Relaxation Time (TRT) all play a role in the destruction of a target and the
preservation of surrounding tissue.
Using the theory of selective photothermolysis, unwanted hair can be treated with the ClearScan YAG
1064 nm and appropriate settings that will cause selective absorption of laser light in the melanin of
hair. The light travels down the hair shaft and into the bulb of the follicle where the blood supply to
the follicle is located. The absorption converts light into heat energy, which raises the temperature of
the bulb causing the blood vessels that supply blood and other necessary nutrients to the follicle to be
cauterized. As a result, hair growth is no longer possible. This process should happen selectively and
without damage being done to the epidermis or surrounding tissue.
5 mm HF Scanner
The 5 mm HF Scanner has a contact cooling chill plate assembly attached to it. The assembly is
comprised of two sapphire plates that are separated by continuously flowing Chiller Mixture. The spot
placement is achieved by using two galvanometer motors for x-axis and y-axis displacement.
5 x 5 pattern
The 5 mm HF Scanner precisely places each pulse in a non-sequential pattern to eliminate improper
placement of individual pulses. It also maximizes the time interval between adjacent spots and
minimizes subsurface heat buildup.
The 5 mm HF Scanner allows for complete and uniform application of the laser energy by delivering 5
mm spots of energy within a designated pattern shape and size. The pattern can be adjusted from a 1
x 1 (single spot) to a 6 x 6 with any variation in between. A 5 x 5 pattern is illustrated above.
Aiming beam is represented by red box and shows the user the area to be treated. The energy will be
delivered inside the red box. When the red box is “dancing” the system is in Standby. When the red
box is solid the system is in Ready.
Standby Ready
Care should to be taken to apply adjoining scans without gap or excessive overlap of the previously
scanned area. A mental picture of where the next scan pattern should be placed will assist in lining
each scan pattern up to each other to avoid gap or overlap as shown above.
To achieve safe, uniform treatment as shown, the 5 mm HF Scanner should be held so that the red
box within the chill plate window is in complete contact with the skin at all times.
_____________________________________________________________
Attach the 5 mm HF Scanner to the articulated arm. Press the Scanner softkey on the 1064 nm
Applications screen and the system will enter the Nd:YAG (1064 nm) application screen.
1
2
9 10
4 6 8
3 5 7
11 15
12 13 14
16
18
20 19 17
The ClearScan YAG 1064 nm user screen allows the user to adjust treatment settings. The available
functions are described below.
1. Wavelength indicator
Wavelength indicator shows which wavelength is being used for the treatment.
2. Handpiece indicator
Handpiece indicator shows which handpiece is being used for the treatment.
3. Fluence indicator
Fluence indicator shows the amount of fluence or energy being delivered per 5 mm spot within
whatever size or shape scan pattern has been selected. Fluence is measured in joules per
centimeter squared, J/cm2.
4. Fluence adjustment softkeys
Fluence adjustment softkeys allow the user to increase or decrease fluence by 1 J/cm2 by
tapping or holding down the up ▲ or down ▼ arrow softkeys.
5. Pulse width indicator
Pulse width indicator shows the length of time the energy is being delivered per 5 mm spot
within whatever size or shape scan pattern has been selected. Pulse width is measured in
milliseconds (ms).
6. Pulse width adjustment softkeys
Pulse width adjustment softkeys allow the user to increase or decrease pulse width by 5 ms by
tapping or holding down the up ▲ or down ▼arrow softkeys.
7. Spot placement rate
Spot placement rate is the speed at which each 5 mm spot is being delivered within the scan
pattern. The speed is measured in Hz. The maximum rate is automatically limited by the laser
based on the fluence and pulse width.
8. Spot placement rate adjustment softkeys
Spot placement rate adjustment softkeys allow the user to increase or decrease the rate at
which each 5 mm spot is being delivered by 0.5 Hz by tapping or holding down the up ▲ or
down ▼arrow softkeys
9. Horizontal pattern selection softkeys
The horizontal pattern selection softkeys allow the user to increase or decrease the horizontal
size of the pattern from 1 to 6 spots.
10. Vertical pattern selection softkeys
The vertical pattern selection softkeys allow the user to increase or decrease the vertical size of
the pattern from 1 to 6 spots.
11. Hair reduction quick set settings section indicator
The hair reduction quick set settings section allows the user to select Skin Type I-VI (1 - 6), Hair
Color (Blonde, Brn/Red or Black) and Hair Type (Fine, Medium or Coarse) of the patient in the
area being treated. The laser will automatically set the laser to safe start settings of fluence,
pulse width and rate.
12. Skin type selection softkeys
Skin type selection softkeys allow the user to choose skin type I, II, III, IV, V or VI by tapping or
holding down the up or down arrow softkeys.
13. Hair Color to be treated softkeys
_____________________________________________________________
Surface Cooling
When performing 1064 nm Nd:YAG ClearScan Hair Reduction, the use of a contact cooler is critical
for ensuring patient safety.
Quick-disconnect
fittings at scanner
Quick-disconnect
fittings on chiller hose
Attach two quick-disconnect fittings at one end of the chiller hose to the chiller and the other two
quick-disconnect fittings at the other end of the hose to the 5 mm HF Scanner. Make sure that the
chiller is filled with Chiller Mixture (20% methanol in water). Connect the power cable and turn on the
switch at the back of the chiller.
If the contact cooler is turned on prior to the scanner being attached, the cooler will emit an
alarm noise. This alarm is also emitted if there is kink or anything wrong with the hose that could
prevent water from flowing through the connection tubes and then recirculated back through the
cooler. If this alarm is heard while treating a patient, stop the treatment and evaluate why water is not
flowing. If water is not flowing through the contact cooler hose and through the chill plate, the patient
is not getting adequate cooling. This inadequate cooling could lead to a blister or burn.
Set the temperature to the desired temperature and wait a few minutes until the desired setpoint is
reached.
Hair Basics
Hair revolves through three phases of growth: anagen, catagen and telogen. It is only during the
growing phase, anagen, that hair reacts to ClearScan YAG 1064 nm light. Not all hair present in an
area is in the anagen phase at the same time. Duration of hair growth cycles depends on the body
location being treated. Multiple treatments are necessary over a time span of typically 4-8 week
_____________________________________________________________
anagen: The phase of the hair cycle during which synthesis of hair takes place. This is
the active growing phase in which the hair bulb is intact.
catagen: Brief intermediate phase between anagen and telogen. During this phase,
the body absorbs the lower third of the follicle.
telogen: This is the resting phase. The hair bulb is no longer present. It is now a club
hair, which will fall out or be pushed out of the follicle by a new anagen growing hair.
Fluence
Refer to Treatment Starting Parameters as noted below or the Hair Reduction quick set settings
section on the control panel display screen for appropriate fluence selection.
Targets that are darker absorb more energy/heat and will reach higher temperatures much quicker
than targets that are lighter in color. Therefore, darker hair, and areas where there is more
concentrated areas of dark hair growth, require less fluence than lighter colored hair in less
concentrated areas of light colored hair growth to reach the same therapeutic level.
As treatments progress through a series, fluence settings will need to be changed. If effective
treatments are being provided each treatment session, hair should be getting lighter in color,
therefore fluence will need to be increased to compensate for a less melanin rich target in which the
light can be absorbed.
Pulse Width
Refer to Treatment Starting Parameters as noted below or the Hair Reduction quick set settings
section on the control panel display screen for appropriate pulse width selection.
Pulse width should be shorter than the cooling time of the target to make sure that all the energy is
confined to the target. Smaller objects cool faster than larger ones. Therefore, the smaller or finer the
hair being treated the less time on, or the shorter the pulse width. Conversely, the larger or coarser
the hair being treated the more time on with the heat, or a longer pulse width.
_____________________________________________________________
Cooling
Refer to Safe Start Protocol as noted below for appropriate cooling selection.
Cooling temperatures are selected based on skin type and density of hair. Lighter skin is able to
tolerate higher temperatures, while darker skin will require more cooling in order to be more protective
of the tissue. In areas where hair is more densely populated there will be more absorption of heat and
therefore require cooling temperature be lower. Conversely, in areas where the hair is less densely
populated there will be less absorption of heat and therefore temperature can be higher.
Treating with higher (warmer) cooling temperatures will require treating with lower fluence settings.
The inverse also applies.
Note: The cooling temperature is set on the external contact cooler and not on the control
panel display screen.
The area within the selected red box on the 5 mm HF Scanner chill plate should be in complete
contact with skin throughout the entire scan to ensure that skin is protected before, during and after a
scan pattern is delivered.
Always test the chill plate window for desired level of chilling before beginning any laser
treatment. The risk of epidermal injury such as blistering increases with ineffective cooling.
_____________________________________________________________
Treatment Basics
Hair that is present in the area to be treated should be shaved prior to treatment. There should be
no more than 0.5 mm hair growth, or very minimal stubble, present in treatment area. The longer
the hair, the greater the risk of burning the hair to the patients skin and also “pitting” or damaging
the 5 mm HF Scanner chill plate window.
Patient should be positioned based on the area to be treated. The position should be comfortable
to the patient and such that the treatment provider has good access to the area to be treated and
the system control panel display screen.
When treating a patient’s upper lip, a mouth guard or a 2 x 2 piece of gauze should be placed
between the teeth and upper lip.
A mild cleanser or alcohol gauze should be used to remove any dirt, makeup, deodorant or
moisture from the treatment site.
If topical anesthetic is to be used, apply as directed prior to treatment. Before beginning treatment,
ensure that topical has been completely removed from surface of skin.
Apply 2-3 mm thickness of colorless ultrasound gel to area to be treated. The gel should be used in
conjunction with the 1064 nm wavelength for optimal heat removal to help protect the epidermis, as
well as improved optical coupling and lubrication for sliding the chill plate over skin. The gel also
simulates contact with the skin and reduces the risk of “pitting” or damage to the 5 mm HF Scanner
chill plate window.
Connect the 5 mm HF Scanner to the articulated arm.
Water condensation on the upper surface of the chill plate may result in laser beam scattering and
an incorrect setting for fluence. Apply the surfactant, Sea Drops, to the upper side of the 5 mm HF
Scanner chill plate window before turning on the external Contact Cooler. Reapply as needed.
Connect external Contact Cooler to the 5 mm HF Scanner and then turn the cooler on.
If the contact cooler is turned on prior to the scanner being attached, the cooler will emit
an alarm noise. This alarm is also emitted if there is kink or anything wrong with the hose that could
prevent water from flowing through the connection tubes and then recirculated back through the
cooler. If this alarm is heard while treating a patient, stop the treatment and evaluate why water is
not flowing. If water is not flowing through the contact cooler hose and through the chill plate, the
patient is not getting adequate cooling. This inadequate cooling could lead to a blister or burn.
Select appropriate temperature setting. Refer to ClearScan Hair Reduction Safe Start Treatment
Parameters.
Note: Always test the chill plate window for desired level of chilling before beginning any laser
treatment. The risk of epidermal injury, such as blistering, increases with decreased or ineffective
cooling.
Eye protection should always be worn by everyone present in the treatment room during
any laser or light based treatment. When treating on the patient’s face, they should always wear
external, matte-finish metal goggles.
It is not recommended that any ClearScan YAG 1064 nm treatment be performed within the orbital
rim due to the high risk of retinal damage.
Select starting settings based on ClearScan Hair Reduction Safe Start Treatment Parameters
noted below or the Hair Reduction quick set settings section on the control panel display screen.
The 5 mm HF Scanner should be held perpendicular to the surface of the skin at all times. Move
patient if necessary to accomplish this 90 degree angle. All areas of the chill plate within the red
box, should be in complete contact with skin at all times throughout entire scan. For highly curved
areas, select a smaller scan pattern or select Pattern Center to offset the pattern to the top edge of
the chill plate to ensure that treatment area inside the red box is completely flat on skin.
Treating Test Area: Treating a test area prior to beginning treatment will determine the patient’s
response threshold and help establish safe and effective treatment parameters.
_____________________________________________________________
Face I - II 50 10 - 35 10 - 15
III - IV 50 10 - 35 8 -12
V - VI 35 25 - 50 5 - 10
Body I - II 70 10 - 35 10 - 15
III - IV 60 10 - 35 8 -12
V - VI 50 25 - 50 5 - 10
Pseudofolliculitis I - IV 40 10 - 35 5
Barbae (PFB) V - VI 25 25 - 50
Note: In areas where skin is thinner and the bone is closer to the surface; jaw line,
clavicle, shins, shoulders, knees, toes etc., fluence should be decrease by 20%.
Endpoints
Sparking – the hair shaft should flash when instantly heated by the laser pulse.
Mild to moderate discomfort.
Smell of success (SOS) – hair has a unique and very noticeable odor when it is heated during the
laser pulse.
Slight follicular edema and erythema within 2 - 5 minutes after treatment that resolves within 1 - 4
hours of treatment.
Post Treatment
Observation – Erythema for several hours after treatment. Treated hairs can take up to 7 - 14 days
to exfoliate from the follicle and may appear to be “growing” during this time.
_____________________________________________________________
_____________________________________________________________
The ClearScan YAG 1064 nm Hair Reduction Treatment protocol is utilized when treating single
individual hairs.
The 6 mm single spot handpiece is used for ClearScan YAG 1064 nm Single Hair Reduction
treatments.
When selecting settings for ClearScan YAG 1064 nm Single Spot Hair Reduction Treatments, the
user can either enter the 1064 nm Scanner Applications User Screen and use the Hair Reduction
Quick Set Settings Section or refer to the ClearScan Hair Reduction Treatment Starting Parameters
noted above.
Attach the 6 mm single spot handpiece to the articulated arm. Press the Single Spot softkey on the
1064 nm Applications screen and the system will enter the Nd:YAG (1064 nm) application screen.
1
2
4 6 8
3 5 7
10 11
13
15 14 12
The Nd:YAG (1064 nm) user screen allows the user to adjust treatment settings. The available
functions are described below.
_____________________________________________________________
Surface Cooling
When performing ClearScan YAG 1064 nm Single Spot Hair Reduction treatments, the use of a
contact cooler is critical for ensuring patient safety.
Either the paddle chill plate or the single spot chill plate can be used for the treatment.
The bayonet distance guide assures that proper distance from the paddle chill plate is maintained
throughout the treatment for accurate spot size delivery.
Refer to ClearScan YAG 1064 nm Hair Reduction Treatment protocol for Treatment Basics and
ClearScan Hair Reduction Treatment Starting Parameters for safe start settings.
_____________________________________________________________
The Single Spot handpiece consists of a hollow tube housing two lenses.
3 mm & 6 mm Handpieces
Hollow tube
Care should be taken to apply consecutive pulses without gap or excessive overlap of the
previously treated area. A mental picture of the size of the spot being delivered will assist in
spot placement in order to avoid gap or overlap as shown above.
To achieve safe, uniform treatment as shown, the single spot handpiece should be held so that
the red aiming beam that is reflected on the chill plate window is in complete contact with skin at
all times.
Attach either the 3 mm or 6 mm single spot handpiece to the articulated arm. Press the Single Spot
softkey on the ClearScan YAG1064 nm applications screen and the system will enter the Nd:YAG
(1064 nm) single spot application screen.
_____________________________________________________________
4 6 8
3 5 7
11
10
13
15 14 12
The Nd:YAG (1064 nm) user screen allows the user to adjust treatment settings. The available
functions are described below.
1. Wavelength indicator
Wavelength indicator shows which wavelength is being used for the treatment.
2. Handpiece spot size indicator
Handpiece spot size indicates whether the 3 mm or 6 mm single spot handpiece is attached to the
articulated arm.
3. Fluence indicator
Fluence indicator shows the amount of fluence or energy being delivered. Fluence is measured in
joules per centimeter squared, J/cm2.
4. Fluence adjustment softkeys
Fluence adjustment softkeys allow the user to increase or decrease fluence by 1 J/cm2 by
tapping or holding down the up ▲ or down ▼arrow softkeys.
5. Pulse width indicator
Pulse width indicator shows the length of time the energy is being delivered per 3 mm or 6 mm
spot. Pulse width is measured in milliseconds (ms).
6. Pulse width adjustment softkeys
Pulse width adjustment softkeys allow the user to increase or decrease pulse width by 5 ms by
tapping or holding down the up ▲ or down ▼ arrow softkeys.
7. Repetition rate indicator
Repetition rate is the amount of time between each single spot delivery when the footswitch is
held down continuously. The rate is measured in Hz.
8. Repetition rate adjustment softkeys
Repetition rate adjustment softkeys allow the user to increase or decrease each single spot
delivery from 0.3 Hz to 11.3 Hz by tapping or holding down the up ▲or down ▼ arrow softkeys.
9. Vessel size quick set settings section indicator
The vessel size quick set settings section allows the user to select the measured size of the
vessel. Once the measured size is selected the pulse width is automatically adjusted to the
appropriate pulse width. Not all vessels sizes reflected on the vein card are on the user screen. If
there is a vessel size not on the user screen, pulse width can be adjusted manually in 5 ms
increments by using the pulse width adjustment softkeys.
10. Vessel measurement softkeys
Vessel measurement softkeys allow the user to select a premeasured vessel size of 0.2, 0.4, 0.6,
0.8, 1.0, 1.3, 1.6, 2.0, 2.3 or 2.6 mm.
11. Aiming beam intensity softkey
Aiming beam intensity allows the user to make the aiming beam dimmer or brighter in intensity.
MIN, 1, 2, 3, 4, 5 or MAX intensity can be selected by tapping the Aim softkey.
12. Number of accumulated pulses indicator
Number of accumulated pulses indicator shows how many pulses have been delivered since the
system was turned on or since the last time the reset softkey for accumulated pulses was reset.
13. Accumulated pulses reset softkey
Accumulated pulses reset softkey allows the user to reset the number of accumulated pulses to 0
by touching the reset softkey.
14. System status softkey
System status softkey will allow the user to put the system in Standby or Ready.
15. Return to 1064 nm Applications screen softkey
The Return to 1064 nm Applications softkey will return the system to the previous screen.
_____________________________________________________________
When performing 1064 nm Nd:YAG ClearScan Vascular Lesion treatments, the use of a contact
cooler is critical for ensuring patient safety.
Either the paddle chill plate or the single spot chill plate can be used for the treatment.
The bayonet distance guide assures that proper distance from the paddle chill plate is maintained
throughout the treatment for accurate spot size delivery.
Fluence
Refer to Vascular Lesion Treatment Starting Parameters noted below for appropriate fluence
selection.
Targets that are darker absorb more energy/heat and will reach higher temperatures. Therefore
darker, bluer vessels and areas where there is more concentrated areas of dark vessels require less
fluence than lighter, red-pinkish colored vessels in less concentrated areas of light vessels to reach
the same therapeutic level.
As treatments progress through a series, fluence settings will need to be changed. If effective
treatments are being provided each treatment session, vessels should be getting lighter in color.
Therefore, fluence will need to be increased to compensate for a less hemoglobin rich target in which
the light can be absorbed.
_____________________________________________________________
Cooling
10°C is recommended for maximum patient comfort. Treating with higher (warmer) cooling
temperatures will require treating with lower fluence settings. The inverse also applies.
Note: The cooling temperature is set on the external Contact Cooler and not on the laser
control panel display screen.
The area within the 3 mm or 6 mm aiming beam that is reflected on the chill plate window should be
in complete contact with skin throughout the entire pulse to ensure that skin is protected before,
during and after a pulse is delivered.
Always test the chill plate window for desired level of chilling before beginning any laser
treatment. The risk of epidermal injury, such as blistering, increases with ineffective cooling.
_____________________________________________________________
Treatment Basics
Hair that is present in the area to be treated should be shaved prior to treatment. There should be
no more than 0.5 mm hair growth, or very minimal stubble, present in treatment area. The longer
the hair, the greater the risk of burning the hair to the patient’s skin and also “pitting” or damaging
the single spot or paddle chill plate window.
Patient should be positioned in a supine position due to hydrostatic pressure. The position should
be comfortable to the patient and such that the treatment provider has good access to the area to
be treated and the system control panel display screen.
A mild cleanser or alcohol wipe should be us used to remove any dirt, makeup or moisture from the
treatment site.
If topical anesthetic is to be used, apply as directed prior to treatment. Before beginning treatment,
ensure that topical has been completely removed from surface of skin. Using topical anesthetic
may cause blanching and constriction of the vasculature. This may interfere with assessing
accurate endpoints.
Apply 2 - 3 mm thickness of colorless gel to area to be treated. The gel should be used in
conjunction with the 1064 nm wavelength for optimal heat removal to help protect the epidermis,
improved optical coupling and lubrication for sliding the chill plate over skin. The gel also simulates
contact with the skin and reduces the risk of “pitting” or damage to the single spot or paddle chill
plate window.
Connect the 3 mm or 6 mm single spot handpiece to the articulated arm.
Note: The 3 mm single spot handpiece is the ONLY handpiece used on the face of the
patient.
Select either the single spot or paddle chill plate based on user preference or area to be treated.
However, when using the 6 mm single spot handpiece, cooling is better accomplished by using the
paddle chill plate and not the single spot chill plate.
Water condensation on the upper surface of the chill plate may result in laser beam scattering and
an incorrect setting for fluence. Apply surfactant, Sea Drops, to the upper side of the single spot or
paddle chill plate window before turning on the external Contact Cooler. Reapply as needed.
Connect external Contact Cooler to the chill plate selected and then turn the cooler on. Select
appropriate temperature setting. Refer to Vascular Lesion Treatment Starting parameters. Note:
Always test the chill plate window for desired level of chilling before beginning any laser treatment.
The risk of epidermal injury such as blistering increases with ineffective cooling.
Using the vein card provided by Sciton, measure the width of the vessel(s) to be treated. This
measurement correlates to the pulse width or the length of time on with the heat or energy needed
for the treatment.
_____________________________________________________________
Eye protection should always be worn by everyone present in the treatment room during any
laser or light based treatment. When treating on the patient’s face, they should always wear external,
matte-finish metal goggles.
It is not recommended that any 1064 nm Nd:YAG ClearScan treatment be performed within the
orbital rim due to the high risk of retinal damage.
Select starting settings based on Vascular Lesion Starting Parameters noted below.
The 3 mm or 6 mm single spot handpiece should be held perpendicular to the surface of the skin at
all times. Move patient if necessary to accomplish this 90 degree angle. All areas of the chill plate,
where the pulse is going to occur, should be in complete contact with skin at all times throughout
the entire pulse.
Treating Test Area: Treating a test area prior to beginning treatment will determine the patient’s
response threshold and help establish safe and effective treatment parameters.
Select test settings using the Vascular Lesion Treatment Starting Parameters.
The 3 mm single spot handpiece is the ONLY handpiece recommended for use on the
face.
Perform a baseline capillary refill test of the vessel to be treated.
Depress the foot switch to deliver 3 - 4 consecutive pulses. The consecutive pulses should be
placed 3 mm apart for 3 mm handpiece and 6 mm apart for the 6 mm handpiece.
Do NOT treat repeatedly in the same area or stack pulses. Pulse stacking can lead to
excessive heat buildup and may result in blisters, scarring or hyperpigmentation.
Wipe off gel and observe test area for 1 - 2 minutes for endpoints. Vessels may disappear,
darken, lighten, or appear unchanged but fade over time. Variations depend on the depth,
diameter and oxygenation of the vessel. Assess the flow characteristics of the vessel by
performing a capillary refill or blancing test. There may be blurring of the vessel margins, stasis
of the vessel and edema and erythema surrounding the treated vessels. The treated vessels
may have a “cat scratch” appearance post treatment.
If desired endpoints are observed with no adverse effects, treatment can be continued until area
is completed. During the process of treating the vessels, capillary refill should be tested
occasionally to assess progress of stasis.
_____________________________________________________________
Endpoints
Vessels may disappear, darken, lighten, or appear unchanged but fade over time. Variations
depend on the depth, diameter and oxygenation of the vessel.
Blurring of the vessel margins.
Stasis of the vessel.
Edema and erythema surrounding the treated vessels. May look like a “cat scratch”.
Post Treatment
Observation – “Cat scratch” appearance for several hours after treatment.
Intervention – Cool compresses or ice packs can provide some comfort after treatment. If
blistering occurs, aggressive wound healing measures should be implemented. Compression and
avoidance of vasodilatation per physician direction.
Interval – Treatments are performed 4 - 6 weeks apart. 2 - 3 treatments may be required.
If performing vascular lesion treatments in conjunction of other procedures such as MLP or
ProFractional, perform vein treatment first.
Check with manufacturer for guidelines on using injectables in conjunction with 1064 nm Nd:YAG
ClearScan vascular lesion treatments.
_____________________________________________________________
1
2
3 5 7
4 6 8
10
12
14 13 11
The Nd:YAG (1064 nm) user screen allows the user to adjust treatment settings. The available
functions are described below.
1. Wavelength indicator
Wavelength indicator shows which wavelength is being used for the treatment.
2. Handpiece spot size indicator
Handpiece spot size indicates that the 3 mm single spot handpiece is attached to the articulated
arm. The 3 mm handpiece is the only one used for the fine lines/wrinkles treatment.
3. Fluence indicator
Fluence indicator shows the amount of fluence or energy being delivered. Fluence is measured in
joules per centimeter squared, J/cm2.
4. Fluence adjustment softkeys
Fluence adjustment softkeys allow the user to increase or decrease fluence by 1 J/cm2 by
tapping or holding down the up ▲ or down ▼arrow softkeys.
5. Pulse width indicator
Pulse width indicator shows the length of time the energy is being delivered per 3 mm spot. Pulse
width is measured in milliseconds (ms).
_____________________________________________________________
Fluence
Refer to PhotoRevelation Safe Start Treatment Starting Parameters noted below for appropriate
fluence selection.
Patient response can vary, so fluence setting should begin low and be increased gradually after
assessing the individual patient response.
Pulse Width
Refer to Safe Start PhotoRevelation Treatment Starting Parameters noted below.
Because of the large surface area-to-volume ratio, microvessels rapidly lose absorbed energy (heat)
into the surrounding tissue. The thermal relaxation time of very small vessels is less than 1
millisecond (ms), while that of larger vessels and hair can be 20 - 100 ms depending on their size.
Thermal relaxation time of skin, or epidermis, is 3 - 10 ms. When laser light is applied to a vessel the
pulse width of the laser must be shorter than the thermal relaxation time determined by its size,
structure, and thermal diffusion properties. When targeting microvessels using the PhotoRevelation
protocol, a pulse width of less than 1 ms is required.
Recommended starting pulse width is as noted in the table below. It may be necessary to increase
the pulse width to achieve the desired response.
_____________________________________________________________
Treatment Basics
Hair that is present in the area to be treated should be shaved prior to treatment. There should be
no more than 0.5 mm hair growth, or very minimal stubble, present in treatment area. The longer
the hair, the greater the risk of burning the hair to the patient’s skin.
The use of a topical anesthetic is contraindicated for this procedure, as the patient’s reporting of
heat sensation is an important clinical endpoint.
Patient should be positioned based on the area to be treated. The position should be comfortable
to the patient and such that the treatment provider has good access to area to be treated and the
system control panel display screen.
A mild cleanser or alcohol wipe should be used to remove any dirt, makeup or moisture from the
treatment site.
Connect the 3 mm single spot handpiece to the articulated arm.
Note: The 3 mm single spot handpiece is the ONLY handpiece that is configured for
PhotoRevelation use.
Eye protection should always be worn by everyone present in the treatment room during any
laser or light based treatment. When treating on patient’s face, they should always wear external,
matte-finish metal goggles.
It is not recommended that any PhotoRevelation ClearScan YAG 1064 nm treatment be
performed within the orbital rim due to the high risk of retinal damage.
Select starting settings based on PhotoRevelation Safe Start Treatment Parameters noted below.
The 3 mm single spot handpiece should be held perpendicular to the surface of the skin at all
times. Move patient if necessary to accomplish this 90 degree angle.
Treating Test Area: Treating a test area prior to beginning treatment will determine the patient’s
response threshold and help establish safe and effective treatment parameters.
Select test settings using the PhotoRevelation Safe Start Treatment Parameters.
The 3 mm single spot handpiece is the ONLY handpiece that is configured for
PhotoRevelation use.
Hold the handpiece so that it is 5 - 15 cm from the surface of the treatment area. The treatment
area should cover a 5 x 5 cm area.
Depress the foot switch to deliver a series of consecutive pulses while moving the handpiece in
a continuous painting or sweeping motion over the treatment area.
Do NOT treat repeatedly in the same area or stack pulses. Pulse stacking can lead to
excessive heat buildup and may result in blisters, scarring or hyperpigmentation.
Observe test area for 1 - 2 minutes for endpoints; slight erythema and patient’s report of a sense
of warmth in the area treated.
If desired endpoints are observed with no adverse effects, treatment can be continued until
entire area is completed.
If endpoints are not noted, increase the intensity of treatment by the following actions, in the
following order (make only one change per series test pulses):
Increase fluence by 1 - 2 J/cm2
_____________________________________________________________
Endpoints
Slight erythema
Patients report of a sense of warmth in the area being treated.
Post Treatment
Observation – Slight redness and a minimal sun burn sensation for several hours after treatment.
Intervention – Cool compresses or ice packs can provide some comfort after treatment. If
blistering occurs, aggressive wound healing measures should be implemented.
Interval – Treatments are performed 2 - 4 weeks apart. 5 - 6 treatments may be required.
Sunblock with a minimum SPF 30 is recommended on treated areas that are exposed to the sun
for at least 2 weeks after treatments to avoid excessive sunburn reaction or post inflammatory
hyperpigmentation (PIH).
If performing PhotoRevelation treatments in conjunction of other procedures such as MLP or
ProFractional, perform PhotoRevelation treatment first.
Check with manufacturer for guidelines on using injectables in conjunction with PhotoRevelation
ClearScan YAG 1064 nm treatments.
_____________________________________________________________
It is also indicated for use for the temporary increase of clear nail in patients with onychomycosis
(e.g., dermatophytes Trichophyton rubrum and T. mentagrophytes, and/or yeasts Candida albicans,
etc.).
The theory of Selective Photothermolysis explains how wavelength, energy and pulse width in
relation to Thermal Relaxation Time (TRT) all play a role in the destruction of a target and the
preservation of surrounding tissue.
Using the theory of selective photothermolysis, onychomychosis can be treated with the 1064 nm
Nd:YAG ClearSense and appropriate settings that will cause selective absorption of laser light in the
toe nail. As the light travels down the nail, the absorption converts light into heat energy, which raises
the temperature of the nail which destroys the fungal strains such as dermatophytes Trichophyton
rubrum and Trichophyton mentagrophytes, and/or yeasts Candida albicans, etc. With the fungal
growth arrested, visible improvement will be seen following nail growth.
ClearSense Handpiece - provides real time temperature sensing and optimum laser delivery to
safely provide effective treatment for skin and nail rejuvenation.
_____________________________________________________________
Attach the ClearSense handpiece to the articulated arm. Press the ClearScan YAG 1064 nm button,
and then the ClearSense softkey.
This screen allows the user to adjust treatment settings. The available functions are described below.
1. Wavelength indicator
Wavelength indicator shows which wavelength is being used for the treatment.
2. Fluence indicator
Fluence indicator shows the amount of fluence or energy being delivered per spot. Fluence is
measured in joules per centimeter squared, J/cm2.
3. Fluence adjustment softkeys
Fluence adjustment softkeys allow the user to increase or decrease fluence by 1 J/cm2 by
tapping or holding down the up ▲ or down ▼ arrow softkeys.
_____________________________________________________________
_____________________________________________________________
Treatment Basics
Eye protection should always be worn by everyone present in the treatment room during
any laser or light based treatment.
Treating Test Area: Treating a test area prior to beginning treatment will determine the
patient’s response threshold and help establish safe and effective treatment parameters. During
delivery of the laser pulses, observe for endpoints; patient’s report of a mild to moderate heat
sensation in the area being treated. If desired endpoints are observed with no adverse effects,
treatment can be continued until area is completed. If endpoints are not noted, increase the
Fluence or Rep Rate until the patient reports mild to moderate heat sensation in the area being
treated. If reaction to test spot is too severe (excessive pain reported), the Fluence or Rep rate
should be reduced so that the patient reports only mild to moderate heat sensation in the area
being treated.
_____________________________________________________________
The laser beam should be applied to the entire nail plate by slowly moving the beam in a spiral
pattern, from the outside of the nail moving into the center, as shown above to cover the cuticle
and nail bed completely. Listen for audible tones and watch for the visual LED signal.
Recommended treatment temperature range is 40-42 °C or when the yellow LED lights are
illuminated on the temperature indicator and the audible tone begins.
DO NOT TREAT IN THE RED LED LIGHT ZONE. When the red indicator lights are
illuminated the temperature is higher than recommended; blistering may occur if treatment is
continued in this area. Take caution when treating severe nail fungus, as the patient may not feel
the heat.
Treat all ten nails, including nails that appear healthy. Typical treatment times range from 10-20
minutes.
ClearSense Treatment Starting Parameters
Note: Make sure that the patient has debrided the nail if there are areas that are 2 mm thick or
greater.
Endpoints
There is no visual clinical change of the treatment area.
You must rely on audible and visual signals from the ClearSense handpiece as well as
commentary from the patient.
Patient reports mild to moderate discomfort in the entire area being treated as each series of
pulses are applied. Listen to the patient and ask them to tell you when it is too hot; the temperature
at which they think it is too hot may be less than 40-42 °C.
_____________________________________________________________
_____________________________________________________________
ClearSense Handpiece - optimum laser delivery to safely provide effective treatment for wart, skin
and nail rejuvenation. (Indicator lights are not activate in the ClearSense Wart treatment mode, as
temperature is not an endpoint)
Attach the ClearSense handpiece to the articulated arm. Press the ClearScan softkey on the 1064
nm Applications screen to enter the application screen.
_____________________________________________________________
1064 nm ClearSense
softkey for JOULE7
systems
1
2
3 4 5 6 7 8
10
12
14 13 11
This screen allows the user to adjust treatment settings. The available functions are described below.
1. Wavelength indicator
Wavelength indicator shows which wavelength is being used for the treatment.
2. Handpiece Spot Size Indicator
Handpiece spot size indicates that the 6 mm spot handpiece is attached to the articulated
arm.
3. Fluence indicator
Fluence indicator shows the amount of fluence or energy being delivered per spot. Fluence is
measured in joules per centimeter squared, J/cm2.
4. Fluence adjustment softkeys
Fluence adjustment softkeys allow the user to increase or decrease fluence by 1 J/cm2 by
tapping or holding down the up ▲ or down ▼ arrow softkeys.
5. Pulse width indicator
Pulse width indicator shows the length of time the energy is being delivered per spot. Pulse
width is measured in milliseconds (ms).
_____________________________________________________________
In poorly ventilated treatment rooms, the use of a smoke evacuator should be considered.
NIOSH and OSHA recommend the use of a smoke evacuator during procedures that create smoke or
plume. Therefore, it is highly recommended that a smoke evacuator be used during 1064nm Nd:YAG
wart procedures.
_____________________________________________________________
Treatment Basics
The ClearSense handpiece is foot pedal activated. Depress the foot switch and begin delivering
energy. Hold the handpiece so that it is 2 cm and perpendicular from the surface of the treatment
area. Apply the laser energy in one or two pulses. Treat the wart and surrounding tissue as it may be
affected with the virus.
Be careful when treating repeatedly in the same area or stacking pulses. Excessive pulse
stacking can lead to excessive heat buildup and may result in blisters, scarring or hyperpigmentation.
Once desired endpoints are observed as noted below, complete the area to be treated.
Temperature sensor not engaged in the ClearSense wart mode.
Endpoints
Post Treatment
Observation – Slight redness and a minimal sun burn sensation may be felt for approximately 2-12
hours.
Intervention – Cool compresses or ice packs can provide some comfort after treatment. If blistering
occurs, aggressive wound healing measures should be implemented. Clinicians may choose to
prescribe topical antibiotic or soothing ointment along with non-stick dressing.
Home care - Patients should be advised to keep the area clean. Patients should be advised to use
new shoes and wash socks and footwear thoroughly if feet are the affected area.
Interval – more than 1 treatment may be necessary 3-4 weeks apart
Activity – Patients may resume normal or slightly altered activity immediately following procedure
depending on area of treatment.
_____________________________________________________________
The ProLipo PLUS treatment is provided using the ProLipo PLUS User Screen which is accessed
from the Fiber Applications Screen.
Pressing the Laser-Assisted Lipolysis softkey will allow the user to enter into the ProLipo PLUS user
screen.
1
2
3 4
6
5
7
8
10 9
_____________________________________________________________
1. Application indicator
Application wavelength indicator shows the user is in the ProLipo PLUS user screen.
2. Pulse energy ratio
This bar displays the color according to the wavelength selected; green for 1064 nm and orange
for 1319 nm.
3. 1064 nm softkey
1064 nm softkey allows the user to activate the1064 nm wavelength for use during the
ProLipo PLUS procedure.
4. 1319 nm softkey
1319 nm softkey allows the user to activate the1319 nm wavelength for use during the ProLipo
PLUS procedure
5. Power indicator
Power indicator shows the rate at which power is being delivered and is displayed in Watts.
6. Power adjustment softkeys
Power adjustment softkeys allow the user to increase or decrease the power by 1 Watt by tapping
or holding down the up ▲ or down ▼ arrow softkeys.
7. Accumulated Data indicator
Accumulated Data displays the total energy being delivered in Joules and the total time of the
treatment in seconds.
8. Accumulated Data reset softkey
Accumulated Data reset softkey allows the user to reset the total energy delivered and the total
treatment time to zero (0).
9. System status softkey
System status softkey will allow the user to put the system in Standby or Ready.
10. Return to Fiber Applications screen
Return to Fiber Applications softkey will return the system to the previous screen.
The ProLipo PLUS with fiber delivery is indicated for laser assisted lipolysis.
9.4.2 Contraindications
The 1064 nm Nd:YAG and/or 1319 nm Nd:YAG ProLipo PLUS laser system is contraindicated for:
Patients with coagulopathy
Patients with collagen/scarring/connective tissue disorders
Patients with vascular problems
Patients with endocrine disorders
Patients with hypertension
Patients with depression
Patients who are morbidly obese
Patients with wound healing disorders
Patients with recreational drug use or excessive alcohol consumption
Patients who are pregnant
Patients who have an inability to ambulate
Patients with an active localized or systemic infection
Patients who are immunocompromised
9.4.3 Precautions
Ensure that the patient is mentally and emotionally stable to undergo this cosmetic procedure.
Patient must not have any active diseases or pre-existing medical conditions and must have realistic
expectations of the outcome of their surgery
9.4.4 Complications
Complications, though rare, occasionally occur and should be discussed and understood. The patient
must understand the importance of the post care instructions and that failure to comply may increase
the probability of complications.
Bruising
_____________________________________________________________
9.4.5 Warnings
Possible risks specific to ProLipo PLUS treatment include:
Negative reaction to anesthesia
Burns from laser treatment
Excessive blood loss
Pulmonary thromboemboli
Fat emboli
Pulmonary edema
Excessive blood loss
Collateral tissue injury, particularly neural and dermal
ProLipo PLUS works on the theory of Selective Photothermolysis which is the precise targeting of a structure
or tissue using a specific wavelength of light with the intention of absorbing light into that target area alone.
The energy directed into the target area produces sufficient heat to damage the target while allowing the
surrounding area to remain relatively untouched.
The 1064 nm wavelength is chosen for constructing the fat channels and preparing the fat for lipolysis by
breaking up the more vascular superficial fat.
The 1064 nm wavelength is absorbed by oxyhemoglobin for better hemostasis and also generates thermal
heating. The fat cell is ruptured and tumefaction takes place. It is an efficient wavelength for lipolysis.
The 1319 nm wavelength is used for its high absorption in water and its lower scattering in fat, so the majority
of its thermal energy can be confined to the area just beyond the tip of the fiber and therefore may be
preferable when treating around vital areas and thinner skin such as the submental region.
The 1319 nm wavelength is used to preferentially damage collagen in fibrous septae. This is the precursor to
tissue retraction and observable improvement in skin laxity.
9.4.7.1 Consultation/Education
A consultation is essential in order to establish realistic expectations and to gain a full
understanding of the patient and his/her treatment goals. The patient must understand the
procedure, pre and post care instructions, expectations, contraindications and possible
complications prior to beginning any treatment.
_____________________________________________________________
9.4.7.4 Photographs
Pictures should be taken prior to each treatment to document the progress of the treatment.
Photographs are useful in demonstrating efficacy of treatment to the patient.
Camera settings, distance, backdrop, and body/face angle, position and expression should
be the same for each photography session to maintain similar quality.
The patient should sign a photo release form if before and after pictures are to be used for
educational or marketing purposes.
ProLipo PLUS procedures are considered a more advanced treatment. Sciton recommends
that each user attend a Preceptor training course prior to offering ProLipo PLUS procedures to their
patients. Treatment specifics will be reviewed and discussed during the preceptorship.
Below are basic guidelines for ProLipo PLUS procedure. Specifics will vary with physician preference.
9.4.8.2 Pre-treatment
Patient must complete and sign informed consent document(s)
Identify and mark the areas to be treated while patient is standing
Take photographs of the area being treated
Oral sedation if used, should be administered as directed
Peri-operative antibiotics should be administered as directed, if indicated
_____________________________________________________________
Use only fibers that are fitted with high power SMA-905 connectors. Use of
fibers without high power connectors may lead to premature failure of the laser system
and void existing warranty on the system.
Handle the laser fiber with care to ensure that it has not been kinked, punctured,
fractured or damaged. Do not leave fiber where it can be kinked, pulled or tightly coiled
(no smaller than a 6 inch diameter). Do not clamp the fiber with a hemostat or other
instrument. A damaged fiber can cause accidental laser exposure to personnel or the
patient.
Always verify the presence of the aiming beam before beginning treatment. Absence or
dimness of the aiming beam may indicate damage or breakage to the laser fiber. This
must be done before every case!
From the sterile field, pass the connector end of the laser fiber to the non-sterile
assistant
Remove the protective cap and connect the fiber to the laser system
A folded towel may be used to help contain the fiber on the sterile field
Choose the sterile cannula of the appropriate length and attach it to the black
ProLipo PLUS handpiece
Loosen the handpiece nut at the base of the handpiece and insert the laser fiber
through the nut, handpiece and cannula until the fiber extends, but no more than 2 to 3
mm, beyond the distal end of the cannula.
Laser fiber extends 2 to 3 mm
Cannula
Tighten the handpiece nut until it is snug around the fiber and the fiber is secure. Lightly
grasp the fiber and gently push/pull the fiber to ensure there is no movement of the
laser fiber.
Observe that the aiming beam is visible at the end of the fiber/cannula assembly
_____________________________________________________________
9.4.8.8 Procedure
The treatment parameters may vary based on experience and preceptor visit observations.
Select laser treatment parameters
Fiber size: 1000 µm core diameter
Rate: 30 Hz
Power: 15 Watts
Insert the fiber and cannula into the tumesced area
Use a gentle back and forth movement of the laser cannula while firing the laser to
achieve a smooth, uniform delivery of energy to tissue
The physician’s hand should be placed on the outside of the skin to help gauge the
movement of the laser cannula and to detect heat on the surface of the skin or the
TempASSURE should be utilized to measure the temperature of the treatment area.
The patient may describe sensation and pressure but should not feel discomfort.
Additional tumescent anesthesia may be needed if there is any pain in a given area.
Continue to observe the aiming beam through the skin during the treatment. When the
fiber is introduced into deep fat, it may not be visible.
At the conclusion of the laser treatment, aspirate liquefied fat from the treatment site.
The amount of fluid/tissue removed should always be documented.
Document laser treatment parameters including wavelength, fiber type and size, Watts
and Hz
NOTE: All treatment data is deleted from memory after the laser is turned off. It is
important to document treatment parameters prior to the laser being turned off.
Three options for applying a dressing to treated area(s):
- Suture incision tightly closed
®
- A single stitch, or Steri-Strips lightly approximating tissue
- Leave open, allowing the tissue to drain
Post-treatment care will vary with physician preference and should include instructions for:
Dressing and wound care
Use of compression garment
How to shower
Activity level
When to return for follow-up appointments
Medications for discomfort and antibiotics, if ordered
_____________________________________________________________
CelluSmooth is a minimally invasive procedure built on the Sciton JOULE platform. The procedure utilizes
a 1319 nm laser, delivered through a fiber, in three different modes. The fiber is contained in a
TempAssure cannula which measures the tissue temperature near the laser delivery point.
The three modes used for CelluSmooth are Burst, Melt, and Tighten. Each mode has a specific function:
Burst mode is used to sever septae that cause dimpling, Melt mode is used melt fat underlying bulging
tissue, and Tighten mode is used to the tighten the dermis by stimulating collagenesis.
2
A CelluSmooth procedure will take approximately 12 minutes of laser-on time minutes for 300 cm of skin
surface and does not require general anesthesia. The skin is first marked with red and green markers,
highlighting low points (septae tethering) and high points (adipose accumulation) respectively. The skin
surface is then marked with a 5 cm x 5 cm grid pattern for precise application.
Tumescent anesthesia is then applied via 1 or 2 small incisions per each area. The laser energy is then
applied via the same incisions. Approximately 15% of time and energy is spent cutting septae in Burst
mode, 15% of time and energy smoothing irregularities in Melt mode, and 70% of time and energy spent
tightening the skin in Tighten mode.
_____________________________________________________________
The CelluSmooth treatment is provided using the CelluSmooth User Screen which is accessed from
the Fiber Applications Screen.
Pressing the CelluSmooth softkey will allow the user to enter into the CelluSmooth user screen.
1. Indicates
CelluSmooth
Application
4. Select Mode
8. Energy Delivered
from Last Reset
5. Pulse Energy 10. Reset Button
Indicator
_____________________________________________________________
1. Application indicator
Application indicator shows the user is in the CelluSmooth user screen.
2. Power indicator
Power indicator shows the rate at which power is being delivered and is displayed in Watts.
3. Power adjustment softkeys
Power adjustment softkeys allow the user to increase or decrease the power by 5 Watts by
tapping or holding down the - or + softkeys.
4. Mode Selection
The Tighten, Melt or Burst mode can be selected by touching the softkey.
5. Mode Representation of Selected Modes
Tighten, Melt and Burst modes are represented by small, medium and large bars respectively.
6. Pulse Rate Indicator
Graphical representation of relative pulse rates.
7. Pulse Rate Display
Rep rate is displayed in pulses per second (Hz).
8. Accumulated Data indicator for Delivered Energy
Displays the total energy being delivered in Joules.
9. Accumulated Data indicator for Elapsed Time
Displays the total time of the treatment in seconds.
10. Accumulated Data reset softkey
Accumulated Data reset softkey allows the user to reset the total energy delivered and the total
treatment time to zero (0).
9.5.2 Contraindications
The 1319 nm Nd:YAG CelluSmooth laser system is contraindicated for:
Patients with coagulopathy
Patients with collagen/scarring/connective tissue disorders
Patients with vascular problems
Patients with endocrine disorders
Patients with hypertension
Patients with depression
Patients who are morbidly obese
Patients with wound healing disorders
Patients with recreational drug use or excessive alcohol consumption
Patients who are pregnant
Patients who have an inability to ambulate
Patients with an active localized or systemic infection
Patients who are immunocompromised
9.5.3 Precautions
Ensure that the patient is mentally and emotionally stable to undergo this cosmetic procedure.
Patient must not have any active diseases or pre-existing medical conditions and must have realistic
expectations of the outcome of their surgery.
9.5.4 Complications
Complications, though rare, occasionally occur and should be discussed and understood. The patient
must understand the importance of the post care instructions and that failure to comply may increase
the probability of complications.
Bruising
Edema
Paresthesia
Uncontrolled bleeding from incisions
_____________________________________________________________
9.5.5 Warnings
Possible risks specific to CelluSmooth treatment include:
Negative reaction to anesthesia
Burns from laser treatment
Excessive blood loss
Pulmonary thromboemboli
Fat emboli
Pulmonary edema
Excessive blood loss
Collateral tissue injury, particularly neural and dermal
9.5.7.1 Consultation/Education
A consultation is essential in order to establish realistic expectations and to gain a full
understanding of the patient and his/her treatment goals. The patient must understand the
procedure, pre and post care instructions, expectations, contraindications and possible
complications prior to beginning any treatment.
9.5.7.4 Photographs
Pictures should be taken prior to each treatment to document the progress of the treatment.
Photographs are useful in demonstrating efficacy of treatment to the patient.
Camera settings, distance, backdrop, and body/face angle, position and expression should
be the same for each photography session to maintain similar quality.
The patient should sign a photo release form if before and after pictures are to be used for
educational or marketing purposes.
_____________________________________________________________
Below are basic guidelines for CelluSmooth procedure. Specifics will vary with physician preference.
9.5.8.3 Pre-treatment
Patient must complete and sign informed consent document(s)
Oral sedation if used, should be administered as directed
Peri-operative antibiotics should be administered as directed, if indicated
Photograph the area to be treated before marking the patient. Dimples and bulges are
obscured after markings are done.
Photograph the area after marking the patient. This is important for identifying the area
treated in future evaluation of CelluSmooth improvement.
_____________________________________________________________
Ultrasound identifies dimples and fat bulges through correlation between the waviness of
the superficial fascia and the dermis. Pass the ultrasound over the marked bump area.
The corresponding ultrasound image will show superficial fascia widens and the distance
between the dermis thickens or increases. Pass the ultrasound over a marked dimpled
area and the corresponding ultrasound image shows thinning or tenting of the distance
between the superficial fascia and the dermis.
Begin the marking process by lighting tangentially with a handheld light. The oblique light
will create shadows that emphasize the dimples and brighter areas that indicate bulges.
First, mark the dimples by filling in the area with a red marker.
_____________________________________________________________
Lastly, use the template to mark squares on the area to be treated. The template will
outline six 5 cm by 5 cm squares.
Surgeons have observed that they find between 1 and 3 dimples per square, with an
average of 1 per square. If red and green areas fall outside the 5 cm x 5 cm squares,
create more squares using the template.
_____________________________________________________________
For 800 micron fiber application, use only fibers that are fitted with high power
SMA-905 connectors. Use of fibers without high power connectors may lead to
premature failure of the laser system and void existing warranty on the system.
Handle the laser fiber with care to ensure that it has not been kinked, punctured,
fractured or damaged. Do not leave fiber where it can be kinked, pulled or tightly coiled
(no smaller than a 6 inch diameter). Do not clamp the fiber with a hemostat or other
instrument. A damaged fiber can cause accidental laser exposure to personnel or the
patient.
Always verify the presence of the aiming beam before beginning treatment. Absence or
dimness of the aiming beam may indicate damage or breakage to the laser fiber. This
must be done before every case!
From the sterile field, pass the connector end of the laser fiber to the non-sterile
assistant
Remove the protective cap and connect the fiber to the laser system
A folded towel may be used to help contain the fiber on the sterile field
TM
9.5.8.9 Connect laser fiber to TempASSURE assembly
Recommended Solution:
One liter Ringers Lactate
50 cc 1% lidocaine plain
1 ampule epinephrine 1:1000 (1mg/ml)
10 cc bicarbonate 8.4%.
Recommended quantity: 30-50 cc per square depending on treatment area.
_____________________________________________________________
Choose the sterile cannula of the appropriate length and attach it to the CelluSmooth
handpiece.
Loosen the handpiece nut at the base of the handpiece and insert the laser fiber
through the nut, handpiece and cannula until the fiber extends, but no more than 2 to
3mm mm, beyond the distal end of the cannula.
Laser fiber extends 2 to 3 mm
Cannula
Tighten the handpiece nut until it is snug around the fiber and the fiber is secure. Lightly
grasp the fiber and gently push/pull the fiber to ensure there is no movement of the
laser fiber.
Observe that the aiming beam is visible at the end of the fiber/cannula assembly
Do not begin laser treatment with the fiber inside or adjacent to the tip of the
cannula. Rapid heating of the cannula by the laser beam may damage the fiber or cannula
and may cause damage to tissue.
9.5.8.12 Procedure
The treatment parameters may vary based on experience.
Select laser treatment parameters.
The modes below all specify a power of “Up to 30 watts.” For the shortest procedure
the higher power should be used, but investigators may wish to reduce the power until
they feel comfortable using the higher power.
_____________________________________________________________
For Melt Mode, treat a 5 cm x 5 cm using the laser and cannula targeting the green
marked areas with a gentle back and forth movement. Melt mode should be performed
midway between the dermal subcutaneous junction and the underlying muscle.
For Tighten mode, treat each 5 cm x 5 cm square and use a gentle back and forth
movement of the laser cannula while firing the laser to achieve a smooth, uniform
delivery of energy to tissue. Tighten mode should be performed at the dermal
subcutaneous junction.
_____________________________________________________________
Post-treatment care will vary with physician preference and should include instructions for:
Dressing and wound care
Use of compression garment
How to shower
Activity level
When to return for follow-up appointments
Medications for discomfort and antibiotics, if ordered
_____________________________________________________________
ThermaScan emits a mid-infrared beam with a wavelength of 1319 nm which coincides with a high
absorption peak for water and collagen. The epidermis is less hydrated than the dermis, therefore the
majority of the energy from ThermaScan is absorbed in the dermis. ThermaScan is safe and effective for
all skin types. Its principal uses are for treatment of fine lines and wrinkles, and for the treatment of acne
scars and active acne.
The Arm Application menu screen allows the user to enter the 1319 nm ThermaScan user application
screens.
Pressing the ThermaScan softkey will allow the user to enter into the 1319 nm Applications screen.
2 3
1. Application Header
Application Header displays the selected 1319 nm application.
2. Scanner application softkey.
Attach 5 mm HF Scanner with Contact Cooler connected and press the softkey to enter the Nd:YAG
1319 nm user screen.
3. Single Spot application softkey
When treating single acne lesions, attach the 6 mm single spot handpiece with either the single spot
_____________________________________________________________
2
4 6
3
8 7
The 1319 nm Nd:YAG ThermaScan laser module is designed for use in:
Treatment of fine lines and wrinkles
Treatment of atrophic acne scars
Treatment of mild to moderate inflammatory acne vulgaris
9.6.2 Contraindications
9.6.3 Complications
Complications, though rare, occasionally occur and should be discussed and understood. The patient
must understand the importance of the post care instructions and that failure to comply may increase
the probability of complications.
_____________________________________________________________
9.6.4 Warnings
In pretreatment work-ups, screen lesions that are located in the close proximity to known arteries
or veins in order to locate these circulatory structures.
Water condensation on the upper surface of the chill plate may result in laser beam scattering and
an incorrect setting for fluence. Treating the top of the plate with a surfactant, SeaDrops, will
reduce scattering due to condensation.
A dirty chill plate may lead to an incorrect setting for fluence. Clean the chill plate with a soft cotton
gauze moistened with alcohol prior to each treatment and throughout extended, lengthy
treatments.
Check the chill plate temperature prior to each treatment. The risk of epidermal injury, such as
blistering, increases if the temperature of the chill plate is too warm or if the chill plate is too cold.
Tattooed areas, and the area of skin 4 - 5 mm outside of the tattoo in all directions, should not be
treated. Tattoo ink may absorb laser energy resulting in a color change of the tattoo ink or a risk of
epidermal damage.
Darkened moles should not be treated. Moles may absorb laser energy causing a color change of
the mole resulting in the inability to monitor the mole under ABCD guidelines for melanoma
detection. Excess energy may also be absorbed into the mole resulting in the risk of epidermal
damage.
Do not stack pulses or overlap consecutive scans. Repeated pulses in the same location, improper
chill plate placement, repeated scans, improper cooling temperatures, or excessive fluence may
lead to a buildup of subsurface heat and a subsequent blister or burn.
Do not allow combustibles or flammables, including drapes and paper panties, in the laser
treatment area. Fire prevention/control methods should be in place.
Absorption Curve
Absorption curve shows the relationship of the variation in absorbed laser light as a function of
wavelength. The graphic shows absorption spectra of major intracellular absorbers. The
molecular absorption coefficients of oxygenated hemoglobin, melanin and water are shown.
Depth of Penetration
Depth of penetration of laser energy for different types of lasers is also illustrated.
_____________________________________________________________
_____________________________________________________________
Surface Cooling
1319 nm Nd:YAG ThermaScan integrates a powerful 250 Watt external cooling system that connects to
the 5 mm HF Scanner, paddle or single spot chill plates in order to keep the treatment area cool. Skin
surface temperature changes of 1 °C can cause immediately observable differences in the clinical
response.
External Cooling Systems: A black or white version of the external chiller may have been supplied with
your system. Refer to Appendix I for operating instructions, including instructions on how to attach chiller
hoses.
Single spot chill plate Paddle chill plate 5 mm HF Scanner with chill plate
The chill plate should be in complete contact with skin throughout the entire scan or pulse to ensure that
skin is protected before, during and after a pulse or scan pattern is delivered.
Although absorption of the1319 nm Nd:YAG energy into a certain chromophore is desirable, some
epidermal cooling is necessary to protect the skin. Refer to Starting Parameters for temperature setting of
the external cooling system.
Continuous observation of skin during a 1319 nm Nd:YAG ClearScan treatment is critical and will ensure
appropriate fluence, pulse width and temperature settings have been selected and that skin integrity has
not been compromised.
_____________________________________________________________
9.6.6.1 Consultation/Education
A consultation is essential in order to establish realistic expectations and to gain a full
understanding of the patient and his/her treatment goals. The patient must understand the
procedure, pre and post care instructions, expectations, contraindications and possible
complications prior to beginning any treatment.
9.6.6.4 Photographs
Pictures should be taken prior to each treatment to document the progress of the treatment.
Photographs are useful in demonstrating efficacy of treatment to the patient.
Camera settings, distance, backdrop, and body/face angle, position and expression should
be the same for each photography session to maintain similar quality.
The patient should sign a photo release form if before and after pictures are to be used for
educational or marketing purposes.
_____________________________________________________________
5 mm HF Scanner
The 5 mm HF Scanner has a contact cooling chill plate assembly attached to it. The assembly is
comprised of two sapphire plates that are separated by continuously flowing Chiller Mixture. The spot
placement is achieved by using two galvanometer motors for x-axis and y-axis displacement.
5 x 5 pattern
The 5 mm HF Scanner precisely places each pulse in a non-sequential pattern to eliminate improper
placement of individual pulses. It also maximizes the time interval between adjacent spots and
minimizes subsurface heat buildup.
The 5 mm HF Scanner allows for complete and uniform application of the laser energy by delivering 5
mm spots of energy within a designated pattern shape and size. The pattern can be adjusted from a 1
x 1 (single spot) to 6 x 6 with any variation in between. A 5 x 5 pattern is illustrated above.
Aiming beam is represented by red box and shows the user the area to be treated. The energy will be
delivered inside the red box. When the red box is “dancing” the system is in Standby. When the red
box is solid the system is in Ready.
Standby Ready
Care should to be taken to apply adjoining scans without gap or excessive overlap of the previously
scanned area. A mental picture of where the next scan pattern should be placed will assist in lining
each scan pattern up to each other to avoid gap or overlap as shown above.
To achieve safe, uniform treatment as shown, the scanner should be held so that the red box within
the chill plate window is in complete contact with the skin at all times.
Attach the 5 mm HF Scanner to the articulated arm. Press the Scanner softkey on the 1319 nm
Application screen and the system will enter the Nd:YAG 1319 nm application screen.
_____________________________________________________________
3 4 5 6 7 8 9 10
11
12
14
16 15 13
The Nd:YAG 1319 nm user screen allows the user to adjust treatment settings. The available
functions are described below.
1. Wavelength indicator
Wavelength indicator shows which wavelength is being used for the treatment.
2. Handpiece indicator
Handpiece indicator shows which handpiece is being used for the treatment.
3. Fluence indicator
Fluence indicator shows the amount of fluence or energy being delivered per 5 mm spot within
whatever size or shape scan pattern has been selected. Fluence is measured in joules per
centimeter squared, J/cm2.
4. Fluence adjustment softkeys
Fluence adjustment softkeys allow the user to increase or decrease fluence by 1 J/cm2 by
tapping or holding down the up ▲ or down ▼ arrow softkeys.
5. Pulse width indicator
Pulse width indicator shows the length of time the energy is being delivered per 5 mm spot
within whatever size or shape scan pattern has been selected. Pulse width is measured in
milliseconds (ms).
6. Pulse width adjustment softkeys
Pulse width adjustment softkeys allow the user to increase or decrease pulse width by 5 ms by
tapping or holding down the up ▲ or down ▼ arrow softkeys.
7. Spot placement rate
Spot placement rate is the speed at which each 5 mm spot is being delivered within the scan
pattern. The speed is measured in Hz. The maximum rate is automatically limited by the laser
based on the fluence and pulse width.
8. Spot placement rate adjustment softkey
Spot placement rate adjustment softkeys allow the user to increase or decrease the rate at
which each 5 mm spot is being delivered by 0.5 Hz by tapping or holding down the up ▲ or
down ▼ arrow softkeys.
9. Vertical pattern selection softkeys
The vertical pattern selection softkeys allow the user to increase or decrease the vertical size of
the pattern from 1 to 6 spots.
10. Horizontal pattern selection softkeys
The horizontal pattern selection softkeys allow the user to increase or decrease the horizontal
size of the pattern from 1 to 6 spots.
11. Pattern center softkey
Pattern center allows the user to offset the area to be treated to the upper left corner, upper
middle, upper right corner or the center of the chill plate window.
_____________________________________________________________
Surface Cooling
When performing 1319 nm Nd:YAG ThermaScan for Fine Lines/Wrinkles & Acne Scar Treatment, the
use of a contact cooler is critical for ensuring patient safety.
Either the paddle chill plate or the single spot chill plate can be used for the treatment.
The bayonet distance guide assures that proper distance from the paddle chill plate is maintained
throughout the treatment for accurate spot size delivery.
Patients should understand that to obtain optimal results with 1319 nm Nd:YAG ThermaScan Skin
Rejuvenation & Acne Scar Treatment, a minimum of 4 treatments are required. Optimal results may
not be seen for 3 - 6 months after the last treatment. It takes this amount of time for dermal changes
from fibroblast activity to be observed.
Treating scars
Fibrotic Scars – Dense fibrotic tissue can blister at a lower temperature than normal tissue. In
areas where fibrotic scars are present it is recommended that the fluence and cooling temperature
be decrease by 20 - 50%.
Atrophic Scars – Depressed scars can be treated less aggressively and possibly more frequently.
Using a lower fluence may help avoid injury to the thinner epidermis of atrophic tissue. It is
recommended that when treating over depressed areas, fluence and cooling temperature be
decreased by 20-50%.
_____________________________________________________________
Treatment Basics
Hair that is present in the area to be treated should be shaved prior to treatment. There should be
no more than 0.5 mm hair growth, or very minimal stubble, present in treatment area. The longer
the hair, the greater the risk of burning the hair to the patients skin and also “pitting” or damaging
the 5 mm HF Scanner chill plate window.
Patient should be positioned based on the area to be treated. The position should be comfortable
to the patient and such that the treatment provider has good access to area to be treated and the
system control panel display screen.
A mild cleanser or alcohol gauze should be used to remove any dirt, makeup, deodorant or
moisture from the treatment site.
If topical anesthetic is to be used, apply as directed prior to treatment. Before beginning treatment,
ensure that topical has been completely removed from surface of skin.
Apply a thin layer (1 mm) of colorless gel to area to be treated. The gel should be used during the
1319 nm wavelength treatment for optimal heat removal to help protect the epidermis, as well as
improved optical coupling and lubrication for sliding the chill plate over skin. The gel also simulates
contact with the skin and reduces the risk of “pitting” or damage to the 5 mm HF Scanner chill plate
window.
Connect the 5 mm HF Scanner to the articulated arm.
Water condensation on the upper surface of the chill plate may result in laser beam scattering and
an incorrect setting for fluence. Apply the surfactant, Sea Drops, to the upper side of the 5 mm HF
Scanner chill plate window before turning on the external Contact Cooler. Reapply as needed.
Connect external Contact Cooler to the 5 mm HF Scanner and then turn the cooler on.
Note: Always test the chill plate window for desired level of chilling before beginning any laser
treatment. The risk of epidermal injury such as blistering increases with decreased or ineffective
cooling.
Eye protection should always be worn by everyone present in the treatment room during any
laser or light based treatment. When treating on the patient’s face, the patient should always wear
external, matte-finish metal goggles.
Select starting settings based on ThermaScan Fine Lines/Wrinkles & Acne Scar Treatment Starting
Parameters referenced below.
The 5 mm HF Scanner should be held perpendicular to the surface of the skin at all times. Move
patient if necessary to accomplish this 90 degree angle. All areas of the chill plate within the red
box, should be in complete contact with skin at all times throughout entire scan. For highly curved
areas, select a smaller scan pattern or select Pattern Center to offset the pattern to the top edge of
the chill plate to ensure that treatment area inside the red box is completely flat on the skin.
Treating Test Area: Treating a test area prior to beginning treatment will determine the patient’s
response threshold and help establish safe and effective treatment parameters.
Select test settings based on ThermaScan Fine Lines/Wrinkles & Acne Scar Treatment Starting
Parameters below.
Set the scan pattern size to 2 x 2 or 3 x 3 especially if the treatment area is small. This will allow
adequate area for test spots rather than treating the entire area.
Depress the foot switch to deliver the entire scan pattern. Another scan pattern will not be
delivered unless the footswitch is depressed again or if repeat is turned on.
Wipe off gel and observe test area for immediate endpoints; light, uniform erythema within a few
minutes of treatment and the patient’s report of a mild to moderate heat sensation in the area
being treated.
If desired endpoints are observed with no adverse effects, treatment can be continued until area
is completed.
_____________________________________________________________
Endpoints
Light, uniform erythema within a few minutes of treatment.
Mild to moderate heat sensation in the area being treated.
Post Treatment
Observation – Light erythema for up to several hours after treatment. Patients may feel like they
have a moderate sunburn in the treatment area for up to two hours after the treatment.
Intervention – Cool compresses or ice packs can provide some comfort after treatment. If
blistering occurs, aggressive wound healing measures should be implemented.
Interval – Treatments are performed 4 weeks apart. 4 - 5 treatments may be required.
1319 nm Nd:YAG ThermaScan Fine Lines/Wrinkles & Acne Scar Treatments may be given in
combination with MLP, and/or ProFractional/ProFractional-XC/III.
If performing 1319 nm Nd:YAG ThermaScan Fine Lines/Wrinkles & Acne Scar Treatment in
conjunction of other procedures such as MLP or ProFractional, perform ThermaScan first.
Check with manufacturer for guidelines on using injectables in conjunction with 1319 nm
Nd:YAG ThermaScan Fine Lines/Wrinkles & Acne Scar Treatment.
_____________________________________________________________
The epidermis is a robust and resilient structure at the surface of the skin. It functions as a physical
barrier to protect the deeper dermis and to retain the skin’s hydration. It is less hydrated than the
dermis resulting in less absorption of energy at 1319 nm than in the dermis since energy at a
wavelength of 1319 nm is preferentially absorbed in water and collagen. The energy absorbed by the
targeted areas generates heat in and around the sebaceous glands. By creating a mild thermal injury
just below the skin’s surface, ThermaScan alters the structure and function of the sebaceous gland.
This leads to a reduction of oil production and as a result, a clearance of the acne.
The 5 mm HF Scanner has a contact cooling chill plate assembly attached to it. The assembly is
comprised of two sapphire plates that are separated by continuously flowing Chiller Mixture. The spot
placement is achieved by using two galvanometer motors for x-axis and y-axis displacement.
5 x 5 pattern
The 5 mm HF Scanner precisely places each pulse in a non-sequential pattern to eliminate improper
placement of individual pulses. It also maximizes the time interval between adjacent spots and
minimizes subsurface heat buildup.
The 5 mm HF Scanner allows for complete and uniform application of the laser energy by delivering 5
mm spots of energy within a designated pattern shape and size. The pattern can be adjusted from a 1
x 1 (single spot) to 6 x 6 with any variation in between. A 5 x 5 pattern is illustrated above.
Aiming beam is represented by red box and shows the user the area to be treated. The energy will be
delivered inside the red box. When the red box is “dancing” the system is in Standby. When the red
box is solid the system is in Ready.
_____________________________________________________________
Care should to be taken to apply adjoining scans without gap or excessive overlap of the previously
scanned area. A mental picture of where the next scan pattern should be placed will assist in lining
each scan pattern up to each other to avoid gap or overlap as shown above.
To achieve safe, uniform treatment as shown, the scanner should be held so that the red box within
the chill plate window is in complete contact with the skin at all times.
Attach the 5 mm HF Scanner to the articulated arm. Press the Scanner softkey on the 1319 nm
Application screen and the system will enter the Nd:YAG 1319 nm application screen.
1
2
3 4 5 6 7 8 9 10
11
12
14
16 15 13
The Nd:YAG 1319 nm user screen allows the user to adjust treatment settings. The available
functions are described below.
1. Wavelength indicator
Wavelength indicator shows which wavelength is being used for the treatment.
2. Handpiece indicator
Handpiece indicator shows which handpiece is being used for the treatment.
3. Fluence indicator
Fluence indicator shows the amount of fluence or energy being delivered per 5 mm spot within
whatever size or shape scan pattern has been selected. Fluence is measured in joules per
centimeter squared, J/cm2.
4. Fluence adjustment softkeys
Fluence adjustment softkeys allow the user to increase or decrease fluence by 1 J/cm2 by
tapping or holding down the up ▲ or down ▼ arrow softkeys.
5. Pulse width indicator
Pulse width indicator shows the length of time the energy is being delivered per 5 mm spot within
whatever size or shape scan pattern has been selected. Pulse width is measured in milliseconds
(ms).
6. Pulse width adjustment softkeys
Pulse width adjustment softkeys allow the user to increase or decrease pulse width by 5 ms by
tapping or holding down the up ▲ or down ▼ arrow softkeys.
7. Spot placement rate
Spot placement rate is the speed at which each 5 mm spot is being delivered within the scan
pattern. The speed is measured in Hz. The maximum rate is automatically limited by the laser
based on the fluence and pulse width.
8. Spot placement rate adjustment softkey
Spot placement rate adjustment softkeys allow the user to increase or decrease the rate at which
each 5 mm spot is being delivered by 0.5 Hz by tapping or holding down the up ▲ or down ▼
arrow softkeys.
_____________________________________________________________
Surface Cooling
When performing 1319 nm Nd:YAG ThermaScan Acne Treatment, the use of a contact cooler is
critical for ensuring patient safety.
Either the paddle chill plate or the single spot chill plate can be used for the treatment.
The bayonet distance guide assures that proper distance from the paddle chill plate is maintained
throughout the treatment for accurate spot size delivery.
_____________________________________________________________
Patients should understand that to obtain optimal results with 1319 nm Nd:YAG ThermaScan Acne
Treatment, a minimum of 4 - 7 treatments are required. Repeated treatments lead to an observable
reduction in active acne in 2 to 4 weeks. Results of acne treatments have been reported to last up to
6 months.
Treating scars
Fibrotic Scars – Dense fibrotic tissue can blister at a lower temperature than normal tissue. In
areas where fibrotic scars are present it is recommended that the fluence and cooling temperature
be decrease by 20 - 50%.
Atrophic Scars – Depressed scars can be treated less aggressively and possibly more frequently.
Using a lower fluence may help avoid injury to the thinner epidermis of atrophic tissue. It is
recommended that when treating over depressed areas, fluence and cooling temperature be
decreased by 20-50%.
_____________________________________________________________
Treatment Basics
Hair that is present in the area to be treated should be shaved prior to treatment. There should be
no more than 0.5 mm hair growth, or very minimal stubble, present in treatment area. The longer
the hair, the greater the risk of burning the hair to the patients skin and also “pitting” or damaging
the 5 mm HF Scanner chill plate window.
Patient should be positioned based on the area to be treated. The position should be comfortable
to the patient and such that the treatment provider has good access to area to be treated and the
system control panel display screen.
A mild cleanser or alcohol gauze should be used to remove any dirt, makeup, deodorant or
moisture from the treatment site.
If topical anesthetic is to be used, apply as directed prior to treatment. Before beginning treatment,
ensure that topical has been completely removed from surface of skin.
Apply a thin layer (1 mm) of colorless gel to area to be treated. The gel should be used during the
1319 nm wavelength treatment for optimal heat removal to help protect the epidermis, as well as
improved optical coupling and lubrication for sliding the chill plate over skin. The gel also simulates
contact with the skin and reduces the risk of “pitting” or damage to the 5 mm HF Scanner chill plate
window.
Connect the 5 mm HF Scanner to the articulated arm.
Water condensation on the upper surface of the chill plate may result in laser beam scattering and
an incorrect setting for fluence. Apply the surfactant, Sea Drops, to the upper side of the 5 mm HF
Scanner chill plate window before turning on the external Contact Cooler. Reapply as needed.
Connect external Contact Cooler to the 5 mm HF Scanner and then turn the cooler on. Note:
Always test the chill plate window for desired level of chilling before beginning any laser treatment.
The risk of epidermal injury such as blistering increases with decreased or ineffective cooling.
Eye protection should always be worn by everyone present in the treatment room during
any laser or light based treatment. When treating on the patient’s face, the patient should always
wear external, matte-finish metal goggles.
Select starting settings based on ThermaScan Acne Treatment Starting Parameters referenced
below.
The 5 mm HF Scanner should be held perpendicular to the surface of the skin at all times. Move
patient if necessary to accomplish this 90 degree angle. All areas of the chill plate within the red
box, should be in complete contact with skin at all times throughout entire scan. For highly curved
areas, select a smaller scan pattern or select Pattern Center to offset the pattern to the top edge of
the chill plate to ensure that treatment area inside the red box is completely flat on the skin.
Treating Test Area: Treating a test area prior to beginning treatment will determine the patient’s
response threshold and help establish safe and effective treatment parameters.
Select test settings based on ThermaScan Acne Treatment Starting Parameters below.
Set the scan pattern size to 2 x 2 or 3 x 3 especially if the treatment area is small. This will allow
adequate area for test spots rather than treating the entire area.
Depress the foot switch to deliver the entire scan pattern. Another scan pattern will not be
delivered unless the footswitch is depressed again or if repeat is turned on.
Wipe off gel and observe test area for immediate endpoints; light, uniform erythema within a few
minutes of treatment and the patient’s report of a mild to moderate heat sensation in the area
being treated.
If desired endpoints are observed with no adverse effects, treatment can be continued until area
is completed.
If endpoints are not noted, increase the intensity of treatment by the following actions, in the
following order (make only one change per test pulse):
_____________________________________________________________
Endpoints
Light, uniform erythema within a few minutes of treatment.
Mild to moderate heat sensation in the area being treated.
Post Treatment
Observation – Light erythema for up to several hours after treatment. Patients may feel like they
have a moderate sunburn in the treatment area for up to two hours after the treatment.
Intervention – Cool compresses or ice packs can provide some comfort after treatment. If
blistering occurs, aggressive wound healing measures should be implemented.
Interval – Treatments are performed 4 weeks apart. 4 - 5 treatments may be required.
1319 nm Nd:YAG ThermaScan Acne Treatments may be given in combination with MLP, and/or
ProFractional/ProFractional-XC/III.
If performing 1319 nm Nd:YAG ThermaScan Acne Treatments in conjunction of other
procedures such as MLP or ProFractional, perform ThermaScan first. If using the 420 nm filter
with the BBL in combination with the ThermaScan (1319 nm) Acne treatment, the 420 nm filter
can be used before or after the 1319 nm.
Check with manufacturer for guidelines on using injectables in conjunction with 1319 nm
Nd:YAG ThermaScan Acne Treatments.
_____________________________________________________________
The 1319 nm Nd:YAG ThermaScan Acne Treatment protocol is utilized when treating individual acne
lesions.
The 6 mm single spot handpiece is used for 1319 nm Nd:YAG ThermaScan Single Acne Lesion
treatments.
Attach the 6 mm single spot handpiece to the articulated arm. Press the Single Spot softkey on the
1319 nm Application screen and the system will enter the Nd:YAG 1319 nm application screen.
1
2
3 5 7
4 6 8
11
13 12 10
The Nd:YAG (1319 nm) user screen allows the user to adjust treatment settings. The available
functions are described below.
1. Wavelength indicator
Wavelength indicator shows which wavelength is being used for the treatment.
2. Handpiece spot size indicator
Handpiece spot size indicates that 6 mm single spot handpiece is attached to the articulated arm.
3. Fluence indicator
Fluence indicator shows the amount of fluence or energy being delivered. Fluence is measured in
joules per centimeter squared, J/cm2.
4. Fluence adjustment softkeys
Fluence adjustment softkeys allow the user to increase or decrease fluence by 1 J/cm2 by
tapping or holding down the up ▲ or down ▼arrow softkeys.
5. Pulse width indicator
Pulse width indicator shows the length of time the energy is being delivered per 6 mm spot. Pulse
width is measured in milliseconds (ms) and depending upon fluence setting can be adjusted from
10 to 200 ms.
6. Pulse width adjustment softkeys
Pulse width adjustment softkeys allow the user to increase or decrease pulse width by 5 ms by
tapping or holding down the up ▲ or down ▼ arrow softkeys.
7. Repetition rate indicator
Repetition rate is the amount of time between each single spot delivery when the footswitch is
held down continuously. 1319 nm Nd:YAG ThermaScan Single Acne Lesion treatment is always
performed in the shot mode.
8. Repetition rate adjustment softkeys
Repetition rate adjustment softkeys allow the user to increase or decrease each single spot
_____________________________________________________________
Surface Cooling
When performing 1319 nm Nd:YAG ThermaScan Single Acne Treatments, the use of a contact
cooler is critical for ensuring patient safety.
Either the paddle chill plate or the single spot chill plate can be used for the treatment.
The bayonet distance guide assures that proper distance from the paddle chill plate is maintained
throughout the treatment for accurate spot size delivery.
Refer to 1319 nm Nd:YAG ThermaScan Acne treatment protocol for Treatment Basics.
_____________________________________________________________
Pro-V emits a mid-infrared wavelength of 1319 nm to heat water within the vein, limiting damage to the
vein itself, causing it to contract and collapse. This enables the Pro-V to treat veins without contact of the
vein wall, minimizing the risk of bruising, discomfort, and perforation of veins.
The Pro-V treatment is provided using the endovenous laser treatment EVLT (1319 nm), User Screen
which is accessed from the Fiber Applications Screen.
Pressing the Endovascular Laser Treatment softkey will allow the user to enter into the EVLT (1319
nm) user screen.
1
2
4 6
3 5 7
8
9
11 10
The EVLT (1319 nm) user screen allows the user to adjust treatment settings. The available functions
are described below.
1. Application and wavelength indicator
Application and wavelength indicator shows the user is in the EVLT user screen and that the 1319
nm wavelength is being used for the treatment.
2. Open source fiber indicator
An open source fiber with 600 µm core diameter, which is fitted with a high power SMA-905
connector, can be used to perform endovenous treatment.
_____________________________________________________________
9.7.2 Contraindications
The 1319 nm Nd:YAG Pro-V laser system is contraindicated for:
Patients with coagulopathy
Patients who have arteriovenous malformations in the vein segment being treated
Patients with ongoing deep vein thrombosis
Patients who have non-palpable pedal pulses
Patients with peripheral arterial disease indicated by ankle-brachial index (ABI) of < 0.7
Patients who are pregnant
Patients with the inability to ambulate
Patients with active localized or systemic infection
Patients who are immunocompromised
9.7.3 Precautions
POSSIBLE NEURAL AND CUTANEOUS INJURY: Treatment of the vein in the leg below the knee is
associated with an increased risk of neural and cutaneous injury.
9.7.4 Complications
Complications, though rare, occasionally occur and should be discussed and understood. The
patient must understand the importance of the post care instructions and that failure to comply may
increase the probability of complications, such as:
Pain
Edema
Ecchymosis
Paresthesia
Hematoma
Phlebitis
Thrombus
Skin thermal injury, pigmentary changes and infection
_____________________________________________________________
9.7.7.1 Consultation/Education
A consultation is essential in order to establish realistic expectations and to gain a full
understanding of the patient and his/her treatment goals. The patient must understand the
procedure, pre and post care instructions, expectations, contraindications and possible
complications prior to beginning any treatment.
9.7.7.2 Physician Exam & Medical History
A physical exam and detailed medical history outlining any former or active medical
condition or medication that is contraindicated or that could possibly affect the outcome of
the treatment should be obtained prior to treatment.
9.7.7.3 Informed Consent
The process of accepting and confirming treatment must be reviewed, understood and
signed by the patient prior to treatment. This document must review the topics discussed
during the consultation. It acknowledges that the patient understands the procedure,
possible risks and complications and that all questions have been answered.
Reference sample Informed Consent in Appendix of this manual.
9.7.7.4 Photographs
Pictures should be taken prior to each treatment to document the progress of the treatment.
Photographs are useful in demonstrating efficacy of treatment to the patient.
Camera settings, distance, backdrop, and body/face angle, position and expression should
be the same for each photography session to maintain similar quality.
The patient should sign a photo release form if before and after pictures are to be used for
educational or marketing purposes.
_____________________________________________________________
Treatment Basics
Pro-V procedures are considered a more advanced treatment. Sciton recommends that each user
attend a Preceptor training course prior to offering Pro-V procedures to their patients. Treatment
specifics will be reviewed and discussed during the preceptorship.
Below are basic guidelines for any Pro-V procedure. Specifics will vary with physician preference.
Laser fibers are inherently fragile and so care should be exercised in handling
them.
13. Visualize the aiming beam through the patient’s skin.
14. Administer peri-venous local anesthesia along the GSV.
Note: The choice of local anesthetic regime may vary from physician to physician.
15. Confirm the laser fiber tip position using ultrasound and pull the introducer sheath out of
the vein, leaving only the proximal tip in the skin edge.
Do not begin laser treatment with the fiber inside the introducer sheath.
Intravascular burning of the sheath by the laser beam may damage the sheath and/or
cause a patient reaction.
_____________________________________________________________
17. Begin the laser treatment by steadily pulling back the laser fiber at the rate appropriate
for the patient’s condition. 0.5 mm/sec to 1 mm/sec are common pullback rates.
Observe tissue response on ultrasound for the following:
Slowing or stopping of forward movement of flow.
Thickening of the vein wall
Contraction of the vein
Decrease in size of the vein lumen
Note: If use of pullback device is desired, set up the pull-back device by adjusting the
height and position of the pull-back so that the fiber has a straight, unobstructed
pathway to the device. Make sure that the pull-back device is positioned so that the
arrows indicate the correct direction of the fiber movement. Insert the fiber into the
pull-back device, ensuring that the fiber is positioned over the roller wheel. Remove
the slack in the fiber so that it is taut and close the device lid. Run the device at 1
mm/sec during treatment.
18. Place fingers on either side of the fiber at the exit point from the skin to verify
movement and to support the fiber as it is being pulled out.
19. When the fiber is a few centimeters from the access site, stop laser treatment and turn
off the pull-back device. Remove the introducer sheath completely from the vein and
resume laser treatment with a manual pull back of the fiber until the fiber exits the vein.
20. Following the treatment, observe the appearance of the vein with the ultrasound:
Vein appears more dense and thickened (more echogenic)
Vein is less compressible with pressure from the ultrasound probe
Vein lumen is noticeably smaller in size
Vein does not demonstrate spontaneous flow
_____________________________________________________________
_____________________________________________________________
Halo softkey
Pressing the Halo or Halo Pro softkey will allow the user to enter the appropriate application screens.
2 3
1. Application Header
The Application Header displays the selected Halo application.
2. Halo application softkey
Press the softkey to enter Halo user screen.
3. Halo Pro application softkey
Press the softkey to enter Halo Pro user screen.
4. Return to Arm Applications screen softkey
Touching this key will return the system to the previous screen
_____________________________________________________________
9.8.2 Considerations
Halo (1470 nm) and Halo Pro (1470 nm and 2940 nm) have the following medical judgment considerations:
Patients who use anticoagulant medications that may hinder coagulation or have predisposition of bruising
Patients who are actively tanning, UV exposure
Patients with undefined lesions
Patients who are susceptible to Post Inflammatory Hyperpigmentation (PIH)
Patients who have filler or injectables
9.8.3 Precautions
Patients must be carefully evaluated by the physician for their risk of scarring versus treatment benefit.
Treatment should be done in a conservative fashion in areas where the skin is thin, such as the temple and
forehead areas.
Post-treatment hyperpigmentation may occur after 3-4 weeks.
Direct and intentional sun exposure should be avoided for 2 weeks post treatment. Daily use of sun block
immediately after treatment, and for at least the next 30 days, is recommended to avoid pigment related
complications.
Patients who smoke may experience delayed healing and decreased benefit.
Patients should avoid the use of Clarisonic™ skin care brushes and any other form of manual exfoliation of
skin for at least 2 weeks after the treatment.
Selection of patients must include evaluation of Fitzpatrick Skin Type (I-VI). The Halo and Halo Pro
procedure is a fractionated non-ablative and ablative treatment that uses heat to cause injury to the water in
the dermal layer in the skin. This heat could lead to undesirable pigment related issues in darker skin types.
Therefore, Halo and Halo Pro procedure should be used cautiously in the treatment of skin types V and VI.
Halo and Halo Pro on non-facial tissues. The epidermis of the neck, chest, hands, and general body surfaces
is thinner than that of the face and has fewer adnexal healing structures. Follow suggested parameters in
protocol.
9.8.4 Contraindications
Halo (1470 nm) and Halo Pro (1470 nm and 2940 nm) is contraindicated for:
Patients who are intolerant to anesthetic based agents
Patients with infectious disease
Patients with connective tissue disease
Patients with propensity for keloid formations
Patients who are immunocompromised or compromised healing
Patients who are on long-standing systemic steroids (e.g. Prednisone, Dexamethasone)
Patients who are pregnant
Patients who have used isotretinoin (e.g. Accutane, Sotret, Claravis, Amnesteem) within the past year
Patients with a medical condition that may affect wound healing
_____________________________________________________________
9.8.6 Warnings
In pretreatment work-ups, screen lesions that are located in the close proximity to known arteries or veins in
order to locate these circulatory structures.
Flammable inhalation general anesthetics must not be used. "Flash Fire" may occur. Oxygen levels in the
direct operative area must not be higher than 30%.
Do not allow combustibles or flammables, including drapes and paper gowns in the laser treatment area.
Fire prevention/control methods should be in place.
Absorption Curve
Absorption curve shows the relationship of the variation in absorbed laser light as a function of wavelength. The
graphic shows absorption spectra of major intracellular absorbers. The molecular absorption coefficients of
oxygenated hemoglobin, melanin and water are shown.
Depth of Penetration
Depth of penetration of laser energy for different types of lasers is seen illustrated.
_____________________________________________________________
Based upon the principles of selective fractionated photothermolysis, Halo’s use of 1470 nm laser
wavelength selectively targets dermal tissue containing water and hemoglobin. It does not cause the water in
the tissue to vaporize (ablate) but rather the laser energy heats the tissue in a controlled manner. This
creates microscopic columns of wounded tissue that stimulate neocollagenesis, a process in which new
collagen is produced by the body. The sequential use of 2940 nm wavelength selectively targets epidermis
containing water and hemoglobin to precisely vaporize (ablate) tissue in a controlled manner. This hybrid use
addresses both non-ablative and ablative delivery modalities.
_____________________________________________________________
Type Hair Color Skin Color and Eye Color Sun Reaction
Ethnic Background
Skin type V is the most under-typed skin. Often Asians will look very light and have no
history of sun exposure. Occasionally they have “bleached” their skin with hydroquinone. Treating
them as a III or IV (based on look and reaction to sun) could result in higher risk of complications.
Initially, all Asian skins should be treated as a Skin Type V until reaction to laser light has been
determined.
Similarly, not all black skins are of the same degree of darkness and there may be the temptation to
type these patients as a lower type.
_____________________________________________________________
9.8.8.6 Photographs
Pictures should be taken prior to each treatment to document the progress of the treatment.
Photographs are useful in demonstrating efficacy of treatment to the patient. Additionally, the use of
UV photography and imaging is beneficial to demonstrate before and after effects.
Camera settings, distance, backdrop, and body/face angle, position and expression should be the
same for each photography session to maintain similar quality.
The patient should sign a photo release form if before and after pictures are to be used for
educational or marketing purposes.
Be extremely cautious when applying topical anesthetics to large areas of the body.
Lidocaine toxicity has been linked to several deaths.
All medical personnel should consider the vaporized tissue plume to be potentially hazardous both in
terms of the particulate matter and infectivity. A smoke evacuator should be used at all times when
smoke is created in order to collect the plume. Surgical masks with 0.1µm filtration can be worn in
addition to the use of a smoke evacuator. Halo Pro smoke evacuation tubing and adapter is used.
One end of the hose is attached directly to the Halo disposable adapter. The other end is secured to
the adapter to fit snuggly on the smoke evacuator (see photo in treatment basics). A high level of
suction is used of around 80%. Before treatment, with the Zimmer chiller unit, test adequate smoke
evacuation and chilled airflow.
A Smoke Evacuator contains a suction unit (vacuum pump), a filter, a hose, and an inlet nozzle. A
smoke evacuator should have high efficiency in airborne particle reduction and should be used in
accordance with the manufacturer's recommendations to achieve maximum efficiency:
The suction should have a high flow volume with frequent filter changes being made to optimize
suction and filter capabilities.
Filters should be chosen which allow for maximum filtering efficiency.
Expired filters and uses hoses should be treated as a bio-hazard. Surgical masks and gloves
should be worn when red-bagging.
_____________________________________________________________
It is important to avoid ablation of the full thickness of both the epidermis and dermis (E+D). Full
thickness ablation markedly increases the risk of scarring and long term tissue.
Note: These measurements can vary from patient to patient and are intended to be used only as a
guideline.
Disposable adapter
_____________________________________________________________
2 3 7 5
6
8
10 9
12
11
13
4 14
15
18 17 16
1. Application indicator
Application indicator shows the application the user is in.
2. Face treatment area zone measure softkey
There are five facial zones that comprise the treatment area. Pressing this softkey brings user to the data
2
entry screen for entering the length and width for these zones in cm . The dimensions can be entered by
simply running the Halo handpiece along the length (and width) with the footswitch pressed, or by physically
measuring the dimensions and entering them by using the “+” or “-“ softkeys. The face treatment area
screen is shown below.
3. Fixed treatment area measure softkey
Pressing this softkey brings the user to the data entry screen for entering the length and width for the fixed
zone. The dimensions can be entered by simply running the Halo handpiece along the length (and width)
with the footswitch pressed, or by physically measuring the dimensions and entering them by using the “+”
or “-“ softkeys.The fixed treatment area screen is shown below.
2
4. Area (cm ) indicator
2
For each measured zone, area is populated in this box in cm .
5. Reset softkey
Resets this subscreen to for the treatment zone being displayed.
6. % Accumulated coverage completed bar
This bar provides grapical representation of the fraction of the selected percent coverage.
7. % Accumulated coverage value
This number represents the current percentage of coverage of the treatment area.
8. Target % of coverage
Target % of coverage selected for the treatment.
9. Target energy display
Based upon the Target % coverage selected, the target energy to be delivered is displayed here.
10. Energy display
The total energy delivered is displayed here.
11. Skin Temp
Automatic display of skin temperature during treatment.
12. Treatment Summary softkey
Touching this softkey permits the user to enter the Treatment Summary screen where the treatment area,
target/delivered energy and 1470 depth/coverage are displayed for the five treatment zones. The treatment
summary screen is shown below.
13. Adapter Life Time indicator
The indicator displays the time of use of the disposable adapter. The disposable adapter has lifetime use of
90 minutes. Indicator will monitor time used.
14. Halo 1, Halo 2 & Halo 3 preset Depth (um) / Coverage (%) softkey
Touching one of these three softkeys permits the user to select preset Depth (um) / Coverage or Density (%).
_____________________________________________________________
Halo User Screen (after length and width of the treatment zones are entered)
Zone 1 is ready for treatment.
_____________________________________________________________
2 7 5
3
6
9 8
10
12
11
13
14
4 15 16
19 18 17
1. Application indicator
Application indicator shows the application the user is in.
2. Face treatment area zone measure softkey
There are five facial zones that comprise the treatment area. Pressing this softkey brings user to the data
2
entry screen for entering the length and width for these zones in cm . The dimensions can be entered by
simply running the Halo handpiece along the length (and width) with the footswitch pressed, or by physically
measuring the dimensions and entering them by using the “+” or “-“ softkeys. The face treatment area
screen is shown below.
3. Fixed treatment area measure softkey
Pressing this softkey brings the user to the data entry screen for entering the length and width for the fixed
zone. The dimensions can be entered by simply running the Halo handpiece along the length (and width)
with the footswitch pressed, or by physically measuring the dimensions and entering them by using the “+”
or “-“ softkeys.The fixed treatment area screen is shown below.
2
4. Area (cm ) indicator
2
For each measured zone, area is populated in this box in cm .
5. Reset softkey
Resets this subscreen to for the treatment zone being displayed.
6. % Accumulated coverage completed bar
This bar provides grapical representation of the fraction of the selected percent coverage.
7. % Accumulated coverage value
This number represents the current percentage of coverage of the treatment area.
8. Target % of coverage
Target % of coverage selected for the treatment.
9. Target energy display
Based upon the Target % coverage selected, the target energy to be delivered is displayed here.
10. Energy display
The total energy delivered is displayed here.
11. Skin Temp
Automatic display of skin temperature during treatment.
12. Treatment Summary softkey
Touching this softkey permits the user to enter the Treatment Summary screen where the treatment area,
target/delivered energy, 1470 depth/coverage and 2940 depth/coverage are displayed for the five treatment
zones. The treatment summary screen is shown below.
13. Adapter Life Time indicator
The indicator displays the time of use of the disposable adapter. The disposable adapter has lifetime use of
90 minutes. Indicator will monitor time used.
14. Depth (um) / Coverage (%) softkey
Touching this softkey permits the user to enter the Depth (um) / Coverage or Density (%) screen where
depth of treatment and the percent coverage can be selected. The Depth/Coverage screen is shown below.
15. 1470nm depth and coverage display
This is a display of the depth and % coverage selected for treatment with 1470nm.
16. 2940nm depth and coverage display
This is a display of the depth and % coverage selected for treatment with 2940nm.
_____________________________________________________________
_____________________________________________________________
Halo Pro User Screen (after length and width of the treatment zones are entered)
Zone 1 is ready for treatment.
_____________________________________________________________
_____________________________________________________________
Begin rolling the device at the start of a zone from one arrow direction to the next to measure length,
next tap on the screen to measure the width box and repeat the process. These two measurements
2
will be calculated to give the total area measurement in cm and will be shown in the area box.
Repeat until all areas are completed. For the fixed area, measure in the same method above, length
and width.
Press “Save” after each measured treatment area. To clear data, tap on footswitch. Use the same
measurements for a series of treatments.
Prepare for adequate smoke evacuation. Halo Pro smoke evacuation tubing and adapter is used. One end of
the hose is attached directly to the Halo single use disposable adapter. The other end is secured to the
adapter to fit snuggly on the smoke evacuator. The hose is routed as shown below using hose clips as
shown below. A high level of suction is used of around 80%. Before treatment, with the Zimmer chiller unit,
test adequate smoke evacuation and chilled airflow.
_____________________________________________________________
Prepare for cooling using Zimmer and Halo adapter hose a few minutes prior to the procedure. Attach end to
Halo device at disposable adapter. Attach the opposite end to Zimmer unit.
Each patient will require a new single use adapter prior to procedure. Adapters cannot be disinfected.
Failure to use a new adapter will risk infection and cross contamination.
Treatment Parameters
Enter appropriate settings into the control panel display screen based on condition and area to be treated.
If using Halo, select 1, 2, or 3 for preset level desired.
Depress the foot pedal and deliver complete amount of energy that has been calculated for the zone or area.
An audible tone will be heard when the calculated joules has been reached to indicate completion.
_____________________________________________________________
Halo
Halo Pro
(Independent Wavelength Selection Control)
Treatment Technique
Halo incorporates DTO Dynamic Thermal Optimization. This unique thermal sensor constantly monitors the
epidermal skin temperature before each pulse to optimize the fluence and spot size ensuring the exact depth
entered on the screen. Feedback automatically adjusts energy and spot size.
_____________________________________________________________
Use deliberate, controlled sweeping movements and at a speed monitored by the LED lights.
Lay each pass as shown in diagram until cosmetic unit has been covered. The energy will be deposited and
a sound will let the user know that the recommended total energy has been completed. The horizontal bar on
the Percent (%) Coverage will be completely filled to indicate that that the Accumulated % Coverage has
reached the Target % Coverage.
When finished with all 5 zones or fixed area treated, the Treatment Summary Screen will provide the data
from the procedure.
If treating in a small area, e.g. underneath eyes or lesion, make 1 pass and then wait several seconds before
repeating.
The optical lens may need to be checked for debris and cleaned after each zone. May use cotton tipped
applicator moistened with alcohol to cleanse lens.
_____________________________________________________________
Post-Treatment
Observation – erythema, localized edema, sun burn sensation, and tightness of skin. Bronzing and sand
paper texture to the skin MENDS (microscopic epidermal necrotic debris) begins at day 2-3 and will be
almost clear by day 4-5 (depending on aggressiveness of treatment and whether ablation versus coagulation
alone).
Intervention – cool compresses or ice packs can provide immediate comfort after treatment. A light balm e.g.
Elta MD or Cicalfate will provide protection and comfort to treated area and should be used until skin has
exfoliated. Tinted sunscreen may be applied on top of products. Use gentle cleanser. Do not pick or rub
prematurely to exfoliate MENDS (microscopic epidermal necrotic debris) that begin on day 2-3.
Interval – approximately 4-8 weeks depending on depth and coverage area of the treatment and the health
and integrity of the skin being treated. May be part of a series.
Non-invasive light-based BBL treatments may occur prior to procedure.
Check with manufacturer of injectable for their guidelines on using injectables in conjunction with Halo
procedure.
_____________________________________________________________
Quartz is inherently brittle and can break if not handled with care.
Reference “Maintenance” section on how to disinfect the diVa handpiece.
Touching the 1470/2940 softkey will allow the user to access the 1470/2940 applications.
_____________________________________________________________
1
2
diVa softkey
1. Application Header
The Application Header displays the selected diVa application.
2. diVa application softkey
Press the softkey to enter diVa user screen.
3. Return to Arm Applications screen softkey
Touching this key will return the system to the previous screen
9.9.2 Considerations
diVa (1470 nm and 2940 nm) has the following medical judgment considerations:
Patients who use anticoagulant medications that may hinder coagulation or have predisposition of bruising
Patients with undefined lesions
Patients that have prolapse of the vaginal wall
Patients with an active infection
Patients who have undergone previous pelvic floor reconstructive surgery
Patients with more than Grade II prolapse using the POP-Q measurement system
Patients who have used vaginal topical estrogen within one month
9.9.3 Precautions
Patients must be carefully evaluated by the physician for their risk of scarring versus treatment benefit
Patients who smoke may experience delayed healing and decreased benefit
Patients who are intolerant to anesthetic based agents
9.9.4 Contraindications
diVa (1470 nm and 2940 nm) is contraindicated for:
_____________________________________________________________
9.9.5 Complications
Complications, though rare, may occur and should be discussed and understood. The patient must understand the
importance of the post care instructions and that failure to comply may increase the probability of complications.
The potential complications of diVa are:
Scarring, hypertrophic and non-hypertrophic
Burn, from superficial to full thickness
Extensive tissue destruction
Ulceration
Induced bruising or petechiae formation
Severe edema
9.9.6 Warnings
In pretreatment work-ups, screen lesions that are located in the close proximity to known arteries or veins in
order to locate these circulatory structures
Flammable inhalation general anesthetics must not be used. "Flash Fire" may occur. Oxygen levels in the direct
operative area must not be higher than 30%.
Do not allow combustibles or flammables, including drapes and paper gowns in the laser treatment area. Fire
prevention/control methods should be in place.
Absorption Curve
Absorption curve shows the relationship of the variation in absorbed laser light as a function of wavelength. The
graphic shows absorption spectra of major intracellular absorbers. The molecular absorption coefficients of
oxygenated hemoglobin, melanin and water are shown.
Depth of Penetration
Depth of penetration of laser energy for different types of lasers is seen illustrated.
_____________________________________________________________
Based upon the principles of selective fractionated photothermolysis, diVa’s use of 1470 nm laser wavelength
selectively targets dermal tissue containing water and hemoglobin. It does not cause the water in the tissue to
vaporize (ablate) but rather the laser energy heats the tissue in a controlled manner. The coincident and
independent use of 2940 nm wavelength selectively targets the mucosal epithelial layer containing water and
hemoglobin to precisely vaporize (ablate) tissue in a controlled manner. This hybrid use addresses both non-
ablative and ablative delivery modalities.
_____________________________________________________________
A consultation is essential in order to establish realistic expectations and to gain a full understanding
of the patient and her treatment goals. The patient must understand the procedure, pre and post care
instructions, expectations, contraindications and possible complications prior to beginning any
treatment.
A detailed medical history should be obtained prior to treatment outlining any former or active medical
condition or medication that is contraindicated or that could possibly affect the outcome of the
treatment.
It is recommended that a brief medical history be taken before beginning any subsequent treatment
by reviewing clinical information such as any new medications, pertinent change from last treatment,
pregnancy etc.
The process of accepting and confirming treatment must be reviewed, understood and signed by the
patient prior to treatment. This document must review the topics discussed during the consultation. It
acknowledges that the patient understands the procedure, possible risks and complications and that
all questions have been answered.
Reference sample Informed Consent in Appendix of this manual.
9.9.8.4 Medication
To prevent the activation of a herpes simplex virus infection, it is recommended that an antiviral
medication be prescribed.
Use a topical preparation to alleviate discomfort for sensitive patients or sensitive areas prior to
treatment. Each patient should be assessed and questioned regarding allergies or sensitivities to
ingredients in topical anesthetics prior to application. The manufacturer’s guidelines for the
application and duration of the anesthetic should be read prior to topical application. Remove excess
before treatment.
Be extremely cautious when applying topical anesthetics to large areas of the body.
Lidocaine toxicity has been linked to several deaths.
Eye protection should always be worn by everyone present in the treatment room during any laser or
light based treatment.
_____________________________________________________________
Guide rings
Dual wavelength energy delivery window
SQD handle
SQD tip
_____________________________________________________________
The deposits will absorb laser light and cause scatter of transmission
_____________________________________________________________
2 5
3
6
4 7
8 12
10 11
9
15
13 14 16
1. Application indicator
Application indicator shows the application the user is in.
2. 1470 nm wavelength
Below this indicator are the controls for the 1470 nm wavelength
3. 1470 nm depth
The plus (+) and minus (-) buttons allow for control of the depth of coagulation of the diVa treatment. Each
button press increases or decreases the coagulation depth by 25 microns from 200 microns to 700 microns.
4. 1470 nm density
The plus (+) and minus (-) buttons control the density of the 1470 nm coagulation. The 1470 nm coagulation
has 3 levels of coagulation, 0 density (1470 nm is not activated), a low density (from 2 to 9, depending on
depth) and a high density ( from 4 to 18, depending on depth).
5. 2940 nm wavelength
Below this indicator are the controls for th 2940 nm wavelength.
6. 2940 nm depth
The plus (+) and minus (-) buttons allow for control of the depth of ablation of the diVa treatment. Each
button press increases or decreases the ablation depth by 25 microns from 100 microns to 800 microns.
7. 2940 nm density
The plus (+) and minus (-) buttons control the density of the 2940 nm ablation. The 2940 nm wavelength
has 3 levels of ablation, 0 density (2940 nm is not activated), 7% density, and 14% density.
8. Treatment Distance indicator
The distance indicator shows how far the handpiece has traveled inside of the vaginal canal from the last
time the distance has been reset or the beginning of the treament.
9. Total Energy Delivered
The energy delivery indicator shows how much energy has been delivered for each of the 1470 nm and
2940 nm wavelengths, measured in Joules.
10. Treatment Angle Button
Most treatments will use the 360 degree option, which treats the entire circumference of the vaginal canal.
For more targeted treatments, the 90 degree or 180 degree option may be used. The treatment energy will
be delivered as it appears on the screen. Each press of the 90 or 180 degree softkey will change the
position of the treatment.
11. Zero Button
If treating at 90 degrees or 180 degrees, the handpiece must be calibrated to center the guide beam at the
midpoint of the treatment angle before treatment. This can be accomplished by rotating the handpiece in
standby mode. (The handpiece will rotate in standby, but will not fire.) Once the midpoint of the treatment
angle is reached, pressing the zero button will calibrate the system.
12. Reset Button
The reset button will reset the distance and energy delivery values, but will not change treatment settings.
_____________________________________________________________
Position patient table so that end of table (vaginal exposure) is not facing door.
Patient should be positioned in dorsal recumbant position with feet on corners of table with buttocks even
with edge of table. The position should be comfortable to the patient and such that the treatment provider
has good access to the vagina and the control panel display screen. Drape placed in diamond-shaped
fashion for privacy and comfort. If available, stirrups are recommended.
If oral medications are prescribed, they should be given at least 30 minutes prior to procedure.
If topical anesthetic is to be used, apply as directed prior to treatment, usually left on at least 10 minutes.
Gently remove excess from patient before treatment and ensure there is no foreign object inside the vaginal
canal.
To remove the cable, hold the metal housing of the cable and pull up.
_____________________________________________________________
Input the treatment settings using the plus (+) and minus (-) buttons on the user screen.
2 600 15 350 14
3 700 18 400 14
2 500 12 250 14
3 600 15 300 14
diVa’s single-use Strengthened Quartz Dilator expands the vaginal walls for delivery of energy. The tip remains
stationary in the vagina. diVa also has High Precision Automation (HPA). This is a motorized guidance system
that has precisely calibrated 360° rotation. The rotation allows delivery of energy to a new window of the dilator,
ensuring homogenous pulsing all along the vaginal canal.
1. To activate the diVa treatment, connect the microchip on the SQD to the connector on the handpiece (as
seen below). Magnets will help guide the connection. Allow a few seconds for the treatment to activate.
2. Activating the diVa treatment will start a 15 minute timer. The timer will begin to count down from the first
time the footswitch is activated in READY mode. Rotating the handpiece in standby mode will not start the
timer.
3. Insert SQD into vaginal canal, using a small amount of lubrication at the tip of the SQD, if necessary.
_____________________________________________________________
5. Measurement of the treatment length is indicated by the length (cm) to the urethral meatus.
7. Remove the ruler from the SQD and remove the SQD from the vaginal canal.
9. Ensure the SQD is completely engaged with the handpiece but able to rotate freely around the threaded
shaft of the handpiece.
11. Gently hold SQD handle with one hand and the handpiece housing with the other hand to prevent rotation
but allow axial outward movement of the handpiece during treatment.
12. Place the system in the Ready mode by touching the Standby soft-key.
_____________________________________________________________
14. Verify that the handpiece is slowly moving outwards as the patient is being treated.
Note: If the handpiece is not moving outwards, stop treatment. Place system in Standby and verify that the
SQD is properly engaged as noted in Section 7 above. Depress footswitch to verify axial movement of the
SQD as the handpiece screw rotates. After verifying axial movement return the system to Ready mode and
continue treatment.
15. Monitor the distance gauge on the treatment screen until you are 2-3 cm from measured distance.
16. Guide rings will appear and provide a visual indication of treatment progress
19. Remove the SQD from the handpiece and discard as medical waste.
9.9.10 Endpoints
The desired endpoint is the complete delivery of the total accumulated joules recommended from measured
treatment length in the vaginal canal in centimeters.
9.9.11 Post-Treatment
Observation – Visually, the patient may have varying degrees of pinpoint bleeding.
Intervention – A sanitary pad is given for spotting or pinkish discharge. This typically lasts for 24-48 hours.
Some cramping may be experienced that lasts for 24-48 hours. Return of normal daily activity can start
immediately. No sexual activity for 48 hours. No douching for 48 hours.
_____________________________________________________________
The Arm Application menu screen allows the user to enter the different 2940 nm Contour TRL user
application screens.
Pressing the ContourTRL softkey will allow the system to enter into the 2940 nm Applications screen.
1
2 3 4 5
1. Application Header
The Application Header displays the selected 2940 nm application.
2. MicroLaserPeel application softkey
Attach Contour Scanner and press the softkey to enter the MLP (2940 nm) user screen.
3. Resurfacing application softkey.
Attach Contour Scanner and press the softkey to enter the TRL (2940 nm) user screen.
_____________________________________________________________
4 6
2
8 7
The 2940 nm Er:YAG Contour TRL is designed for use in surgical applications requiring the excision,
incision, ablation, vaporization, and coagulation of soft tissue, and for skin resurfacing.
Aesthetic Surgery: Skin resurfacing and treatment of wrinkles.
Dermatology & Plastic Surgery: Indications include epidermal nevi, actinic cheilitis, keloids, verrucae,
skin tags, anal tags, keratoses, scar revision, debulking benign tumors, and decubitis ulcers. It is also
used for laser assisted site preparation for hair transplantation.
2940 nm Er:YAG Contour TRL with ProFractional/ProFractional-XC/III handpiece and delivery system
is intended for use in dermatological procedures requiring skin 2940 nm Er:YAG Contour TRL
Resurfacing and coagulation of soft tissue.
9.10.2 Contraindications
The 2940 nm Er:YAG Contour TRL is contraindicated for:
Patients who are intolerant to anesthesia
Patients with infectious disease
Patients with connective tissue disease
Patients with propensity for keloid formations
Patients who are immunocompromised
_____________________________________________________________
9.10.3 Complications
Complications, though rare, occasionally occur and should be discussed and understood. The patient
must understand the importance of the post care instructions and that failure to comply may increase
the probability of complications.
9.10.4 Warnings
In pretreatment work-ups, screen lesions that are located in the close proximity to known arteries
or veins in order to locate these circulatory structures.
Flammable inhalation general anesthetics must not be used. "Flash Fire" may occur. Oxygen levels
in the direct operative area must not be higher than 50%.
Do not allow combustibles or flammables, including drapes and paper panties, in the laser
treatment area. Fire prevention/control methods should be in place.
Absorption Curve
Absorption curve shows the relationship of the variation in absorbed laser light as a function of
wavelength. The graphic shows absorption spectra of major intracellular absorbers. The
molecular absorption coefficients of oxygenated hemoglobin, melanin and water are shown.
Depth of Penetration
Depth of penetration of laser energy for different types of lasers is also illustrated.
_____________________________________________________________
_____________________________________________________________
Type Hair Color Skin Color and Eye Color Sun Reaction
Ethnic Background
Skin type V is the most under-typed skin. Often Asians will look very light and
have no history of sun exposure. Occasionally they have “bleached” their skin with
hydroquinone. Treating them as a III or IV (based on look and reaction to sun) could result
_____________________________________________________________
9.10.6.6 Photographs
Pictures should be taken prior to each treatment to document the progress of the treatment.
Photographs are useful in demonstrating efficacy of treatment to the patient.
Camera settings, distance, backdrop, and body/face angle, position and expression should
be the same for each photography session to maintain similar quality.
The patient should sign a photo release form if before and after pictures are to be used for
educational or marketing purposes.
_____________________________________________________________
Note: These measurements can vary from patient to patient and are intended to be used
only as a guideline.
_____________________________________________________________
The epidermis is a robust and resilient structure with an average thickness, on the face, of about 110
microns. It functions as a physical barrier to protect the deeper dermis, and retain the skin’s
hydration. It is often the source of fine lines and discolorations in aging skin. The MLP, 4-50 microns
in selected depth, will not fully penetrate the epidermal barrier of the skin. Therefore the safety,
shortened recovery time, and ease of care with these procedures produce a treatment that is
preferred by many patients and physicians.
Contour Scanner
The Contour Scanner allows for complete and uniform application of the laser energy by
delivering 4 mm spots of energy within a designated pattern shape and size. Aiming beam
is represented by red square and shows the user the area to be treated. The energy will be
delivered inside the red square. When the red square is “dancing” the system is in Standby.
When the red square is solid the system is in Ready.
_____________________________________________________________
Care should to be taken to apply adjoining scans without gap or excessive overlap of the
previously scanned area. Align each scan pattern up to each other to avoid gap or overlap
as shown above.
Many physicians divide the total ablation evenly between two passes to avoid the presence
of scanner patterns on the skin (i.e., 40 micron ablation performed as two 20 micron
nd
passes). If two passes are performed, the scanner should be rotated on the 2 pass to
avoid the presence of scanner patterns on the skin.
Attach the standard Contour or Zoom Scanner to the articulated arm. Press the
MicroLaserPeel softkey on the 2940 nm application screen and the system will enter the
MLP (2940 nm) application screen.
1
2
4 5
3
6
7
8 9
11 10
Note: This application covers 100% of the skin within the scanned pattern; it does not
produce a “fractional” effect.
_____________________________________________________________
9.10.7.1 Precautions
Patients must be carefully evaluated by the physician for their risk of scarring versus the
treatment benefit.
Treatment should be done in a conservative fashion in areas where the skin is thin, such
as the temple and forehead areas.
Post-treatment hyperpigmentation may occur after 3-4 weeks.
Direct and intentional sun exposure should be avoided for 7-10 days, then daily use of
sun block is recommended to avoid pigment related complications.
Patients who smoke may experience delayed healing and decreased benefit.
Particulate debris on the lens of the scanner may result in laser beam scattering and an
incorrect setting for depth of treatment. Cleaning the lens prior to, and during treatment,
is essential to ensure accurate treatment settings.
Treating with overlapping scans or at settings much higher than those recommended by
the protocol may lead to undesirable outcomes. Attention to technique and conservative
treatment is recommended.
Selection of patients must include evaluation of Fitzpatrick Skin Type (I-VI). The
MicroLaserPeel is a purely ablative procedure without the coagulation mode that may
lead to long term or permanent hypo- or hyper-pigmentation issues. However, darker
skin types may have transient pigmentary loss with more aggressive MicroLaserPeel
(40-50 micron) treatment. The transitory loss can be a natural healing phenomenon with
a potential period of 3 to 30 days.
MLP on non-facial tissues: The epidermis of the neck, chest, hands and general body
surfaces is thinner than that of the face and has fewer adnexal healing structures. Peels
beyond 20 microns are not recommended in a single treatment. Retreatment may occur as
early as 8 weeks. This procedure may not be ideal for patients with known healing
deficiencies.
_____________________________________________________________
Treatment Basics
Patient should be positioned based on the area to be treated. The position should be
comfortable to the patient and such that the treatment provider has good access to area
to be treated and the control panel display screen.
A mild cleanser should be used to remove any dirt, makeup or moisture from the
treatment site. Follow with an alcohol gauze. Allow alcohol to evaporate before
treatment. Use special care around the eyes.
If topical anesthetic is to be used, apply as directed prior to treatment. Before beginning
treatment, ensure that topical has been completely removed from surface of skin.
Prepare for adequate smoke evacuation.
Attach the Contour Scanner that has previously been cleaned with an alcohol gauze to
the articulated arm.
Enter settings into the control panel display screen based on condition and area to be
treated.
Verify that scanner preview pattern is centered prior to treatment. If pattern is not
centered, refer to Section 7.6 for instructions on how to center the scan pattern.
The Contour Scanner should be held perpendicular and to within 6 inches of the skin
surface at all times for efficient and uniform ablation. Move patient if necessary to
accomplish a 90 degree angle.
To confirm that laser and accessories are performing normally, it is useful for the
operator to first test on a nonflammable inanimate object like a wooden tongue
depressor. Treating a test area prior to beginning treatment will determine the patient’s
response threshold and help them understand the audible and sensory components of
the treatment.
Match the trailing edge of one scan pattern to the leading edge of the next. There should
be no overlap between scans. Patterns should “line up” right next to each other. Refer to
Section 7.6.6.1. Ablative depth can be divided into two equal passes to cover accidental
missed or overlapped scans and for greater patient comfort.
Particulate debris on the optics of the scanner may result in laser beam scattering and
an incorrect setting for fluence. Scanner optics should be cleaned throughout treatment
with a gauze moistened with water. If alcohol is used, clean with the water gauze first
and then the alcohol and allow to dry completely before continuing with the treatment.
The desired endpoint is erythema within a few minutes of laser application. The redness
and healing (often similar in appearance to varying degrees of sunburn) will increase
with the ablation depth and will vary by patient.
Post-Treatment
OBSERVATIONS
Some possible side effects: erythema, localized edema, urticaria, sun burn sensation,
flaking and tightness of skin.
Side effects after MLP can be observed for 12-48 hours after treatment, depending upon
depth of peel.
_____________________________________________________________
Concurrent Procedures
Noninvasive light-based treatments like hair reduction or collagen stimulation may occur
prior to a 2940 nm Er:YAG Contour TRL MicroLaserPeel.
Check with manufacturer for guidelines on using injectables in conjunction with 2940 nm
Er:YAG Contour TRL MicroLaserPeel.
_____________________________________________________________
The dermis is a thick layer of fibrous and elastic tissue (made mostly of collagen, elastin, and
fibrillin) that gives the skin its flexibility and strength. The dermis lies immediately underneath the
epidermis and is about four times thicker. The dermis contains nerve endings, sweat glands and oil
glands, hair follicles, and blood vessels.
Scanner
The Contour Scanner allows for complete and uniform application of the laser energy by
delivering 4 mm spots of energy within a designated pattern shape and size. Aiming beam
is represented by red square and shows the user the area to be treated. The energy will be
delivered inside the red square. When the red square is “dancing” the system is in Standby.
When the red square is solid the system is in Ready.
Standby Ready
Care should to be taken to apply adjoining scans without gap or excessive overlap of the
previously scanned area. Align each scan pattern up to each other to avoid gap or overlap
as shown above.
_____________________________________________________________
Attach the Contour Scanner to the articulated arm. Press the Resurfacing softkey on the
2940 nm application screen and the system will enter the TRL (2940 nm) application
screen.
1
2
3 4 5 6
7
9 10
13 12 11
Note: This application covers 100% of the skin within the scanned pattern; it does not
produce a “fractional” effect.
_____________________________________________________________
9.10.8.1 Precautions
Patients must be carefully evaluated by the physician for their risk of scarring versus the
treatment benefit, especially with selection of coagulation setting when using the Contour
TRL.
Treatment should be done in a conservative fashion in areas where the skin is thin, such
as the temple and forehead areas.
Post-treatment hyperpigmentation may occur after 3-4 weeks.
Direct and intentional sun exposure should be avoided for 7-10 days, then daily use of
sun block is recommended to avoid pigment related complications.
Patients who smoke may experience delayed healing and decreased benefit.
Particulate debris on the lens of the scanner may result in laser beam scattering and an
incorrect setting for depth of treatment. Cleaning the lens prior to, and during treatment,
is essential to ensure accurate treatment settings.
Treating with overlapping scans or at settings much higher than those recommended by
the protocol may lead to undesirable outcomes. Attention to technique and conservative
treatment is recommended.
Selection of patients must include evaluation of Fitzpatrick Skin Type (I-VI). 2940 nm
Er:YAG Contour TRL Resurfacing is an ablative procedure selected with or without the
coagulation mode.
Note that using coagulation mode while ablating the epidermis may lead to long term or
permanent hypo or hyper-pigmentation issues in skin types IV-VI. However, darker skin
types may have transient pigmentary loss in the more aggressive pure ablative
resurfacing (50+ microns). This transitory loss is a natural healing phenomenon with a
potential period of 3 to 30 days.
Anesthesia: Ablation of more than 50 microns usually requires the use of general
anesthesia, conscious sedation, or injection of local anesthesia. Proper safety protocols
should be followed for all anesthesia types.
2940 nm Er:YAG Contour TRL Resurfacing on non-facial tissues: The epidermis of
the neck, chest, hands and general body surfaces is thinner than that of the face and has
fewer adnexal healing structures.
Peels beyond 20 microns are not recommended in a single treatment. COAG should not
be added to treatments performed on non-facial tissue. Retreatment may occur as early
as 8 weeks. This procedure may not be ideal for patients with known healing
deficiencies.
_____________________________________________________________
Treatment Basics
Verify that scanner preview pattern is centered prior to treatment. If pattern is not
centered, refer to Section 7.6 for instructions on how to center the scan pattern.
Post-Treatment
OBSERVATIONS
Some possible side effects: erythema, edema, urticaria, sun burn sensation, oozing and
crusting, flaking and tightness of skin.
Side effects 2940 nm Er:YAG Contour TRL Resurfacing can be observed for 7-10 days
after treatment, depending upon depth of peel.
INTERVENTION
Intervention measures will be discussed during preceptorship.
Concurrent Procedures
Noninvasive light-based treatments like hair reduction or collagen stimulation may occur
prior to a 2940 nm Er:YAG Contour TRL Resurfacing procedure. All other procedures
should not be performed concurrently.
Check with manufacturer for guidelines on using injectables in conjunction with 2940 nm
Er:YAG Contour TRL Resurfacing treatments.
_____________________________________________________________
The Single Spot handpiece consists of a hollow tube housing two lenses and a removable
bayonet. The bayonet distance guide assures appropriate distance to tissue and accurate
spot size delivery.
2 mm & 4 mm Handpieces
1
2
2
Attach the 4 mm single spot handpiece to the articulated arm. Press the Single Spot
softkey on the 2940 nm application screen and the system will enter the TRL (2940 nm)
application screen.
1
2
3 4 7
8 5
9 6
10
12 11
Note: This application covers 100% of the skin within the 4 mm single spot treated; it does
not produce a “fractional” effect.
_____________________________________________________________
1
2
3 6
7 4
5
8
10 9
Note: This application covers 100% of the skin within the 2 mm single spot treated; it does
not produce a “fractional” effect.
_____________________________________________________________
9.10.9.1 Precautions
Patients must be carefully evaluated by the physician for their risk of scarring versus the
treatment benefit, especially with selection of coagulation setting when using the single
spot handpiece.
Treatment should be done in a conservative fashion in areas where the skin is thin, such
as the temple and forehead areas.
Post-treatment hyperpigmentation may occur after 3 - 4 weeks.
Direct and intentional sun exposure should be avoided for 7 - 10 days, then daily use of
sun block is recommended to avoid pigment related complications.
Patients who smoke may experience delayed healing and decreased benefit.
Particulate debris on the lens of the handpiece may result in laser beam scattering and
an incorrect setting for depth of treatment. Cleaning the lens prior to, and during
treatment, is essential to ensure accurate treatment settings.
Treating at settings much higher than those recommended by the protocol may lead to
undesirable outcomes. Attention to technique and conservative treatment is
recommended.
Selection of patients must include evaluation of Fitzpatrick Skin Type (I-VI). The 2940 nm
Er:YAG Contour TRL Single Spot treatment is an ablative procedure selected with or
without the coagulation mode. Note that using coagulation mode (available only with 4
mm handpiece) while ablating the epidermis may lead to long term or permanent hypo or
hyper-pigmentation issues in skin types IV-VI. However, darker skin types may have
transient pigmentary loss in the more aggressive pure ablative single spot treatments
(50+ microns). This transitory loss is a natural healing phenomenon with a potential
period of 3 to 30 days.
_____________________________________________________________
Treatment Basics
Patient should be positioned based on the area to be treated. The position should be
comfortable to the patient and such that the treatment provider has good access to area
to be treated and the control panel display screen.
A mild cleanser should be used to remove any dirt, makeup or moisture from the
treatment site. Follow with an alcohol gauze. Allow alcohol to evaporate before
treatment. Use special care around the eyes.
If topical anesthetic is to be used, apply as directed prior to treatment. Before beginning
treatment, ensure that topical has been completely removed from surface of skin.
Prepare for adequate smoke evacuation.
Attach the 2 mm or 4 mm single spot handpiece that has been cleaned with an alcohol
gauze, to the articulated arm.
Enter settings into the control panel display screen based on condition and area to be
treated. When treating with 2940 nm Er:YAG Contour TRL Single Spot in combination
with a MLP, the single spot treatment can be performed before or after the MLP.
The single spot handpiece should be held perpendicular. Move patient if necessary to
accomplish a 90 degree angle. Use the bayonet distance guide to help achieve this
angle and proper distance to tissue for efficient and uniform ablation.
To confirm that laser and accessories are performing normally, it is useful for the
operator to first test on a nonflammable inanimate object like a wooden tongue
depressor. Treating a test area prior to beginning treatment will determine the patient’s
response threshold and help them understand the audible and sensory components of
the treatment.
Particulate debris on the optics of the handpiece may result in laser beam scattering and
an incorrect setting for fluence. Handpiece optics should be cleaned throughout
treatment with a moistened wipe. If alcohol is used, allow the alcohol to dry completely
before continuing with the treatment.
Epidermal Lesions
When treating for Actinic Keratoses (AK) or Seborrheic Keratoses (SK), the goal is to
remove the epidermis to the appropriate depth of the lesion.
Using either the 2 mm spot or 4 mm spot choose the 10 micron setting and a repetition rate
of 1 - 5 hertz. Ablate the area by making a pass covering the entire lesion. Use a 4 x 4
gauze sponge and wipe any residue from the area to assess the lesion clearance. Make
additional passes until the lesion is gone. Pinpoint bleeding indicates that the papillary
dermis has been reached and further passes should be avoided.
Acne Scars
These are generally assessed as if histology is mid papillary to upper reticular. It is better to
avoid treatment into the reticular dermis.
_____________________________________________________________
Post-Treatment
OBSERVATIONS
Some possible side effects: erythema, localized edema, urticaria, sun burn sensation,
flaking and tightness of skin.
Side effects after single spot treatment can be observed for 12 - 48 hours after
treatment, depending upon depth of treatment.
INTERVENTION
Cool compresses or ice packs can provide immediate comfort after treatment.
An occlusive barrier such as Aquaphor will provide protection and comfort to treated area
and should be used until skin has re-epithelialized.
Concurrent Procedures
Noninvasive light-based treatments like hair reduction or collagen stimulation may occur
prior to a single spot treatment. When treating with the 2940 nm Er:YAG Contour TRL
Single Spot in combination with a MLP, the single spot treatment can be performed before
or after the MLP.
Check with manufacturer for guidelines on using injectables in conjunction with 2940 nm
Er:YAG Contour TRL Single Spot treatments.
_____________________________________________________________
The Focused Single Spot handpiece consists of a hollow tube housing a lens and a
removable bayonet. The bayonet distance guide assures appropriate distance to tissue and
accurate spot size delivery. The spot size becomes larger away from the focal point.
The handpiece uses specialized optics to generate an approximately 0.7 mm diameter
spot. The spot size is determined by the energy, repetition rate (Hz) and the distance. This
spot size is desirable for precise tissue ablation.
Focusing handpiece
Attach the Focused Single Spot handpiece to the articulated arm. Press the Single Spot
softkey on the 2940 nm application screen and the system will enter the TRL (2940 nm)
application screen.
1
2
7
3 5
4 6
9 8
_____________________________________________________________
9.10.10.3 Precautions
Patients must be carefully evaluated by the physician for their risk of scarring versus the
treatment benefit.
Treatment should be done in a conservative fashion in areas where the skin is thin, such
as the temple and forehead areas.
Post-treatment hyperpigmentation may occur.
Direct and intentional sun exposure should be avoided for 7 - 10 days, then daily use of
sun block is recommended to avoid pigment related complications.
Patients who smoke may experience delayed healing and decreased benefit.
Particulate debris on the lens of the handpiece may result in laser beam scattering and
an incorrect setting for depth of treatment. Cleaning the lens prior to, and during
treatment, is essential to ensure accurate treatment settings.
Treating at settings much higher than those recommended by the protocol may lead to
undesirable outcomes. Attention to technique and conservative treatment is
recommended.
Selection of patients must include evaluation of Fitzpatrick Skin Type (I - VI). The
Focused Single Spot treatment is an ablative procedure. Darker skin types may have
transient pigmentary loss in the more aggressive single spot treatments (50+ microns).
This transitory loss is a natural healing phenomenon.
_____________________________________________________________
Treatment Basics
Patient should be positioned based on the area to be treated. The position should be
comfortable to the patient and such that the treatment provider has good access to area
to be treated and the control panel display screen.
A mild cleanser should be used to remove any dirt, makeup or moisture from the
treatment site. Follow with an alcohol gauze. Allow alcohol to evaporate before
treatment.
If topical anesthetic is to be used, apply as directed prior to treatment. Before beginning
treatment, ensure that topical has been completely removed from surface of skin.
Prepare for adequate smoke evacuation.
After cleaning the Focused Single Spot Handpiece with alcohol gauze, attach to the
articulated arm.
Enter settings into the control panel display screen based on condition and area to be
treated.
The Focused Single Spot Handpiece should be held perpendicular. Move patient if
necessary to accomplish a 90 degree angle. Use the bayonet distance guide to help
achieve this angle and proper distance to tissue for efficient and uniform ablation.
To confirm that laser and accessories are performing normally, it is useful for the
operator to first test on a nonflammable inanimate object like a wooden tongue
depressor. Treating a test area prior to beginning treatment will determine the patient’s
response threshold and help them understand the audible and sensory components of
the treatment.
To gain comfort of delivering pulses with this handpiece, it is suggested to practice on a
stack of Post-it notes or a tongue blade for determining speed, accuracy, and
approximation of degree of depth. The Focused Handpiece will provide a spot size of
approximately 0.7 mm. The spot size is controlled by the speed, energy and the distance
used.
* Note: As an example, choosing 0.1 J at 1 Hz will approximate a fluence of 30 J/cm2
and an ablation depth of 120 µm. Choosing 0.5 J will approximate a fluence of 150
J/cm2 and an ablation depth of 600 µm.
Particulate debris on the optics of the handpiece may result in laser beam scattering and
an incorrect setting for fluence. Handpiece optics should be cleaned throughout
treatment with a gauze moistened with alcohol.
Post-Treatment
OBSERVATIONS
Some possible side effects: erythema, localized edema, urticaria, sun burn sensation,
flaking and tightness of skin.
Side effects after Focused Single Spot treatment can be observed for 12 - 48 hours after
treatment, depending upon depth of treatment.
INTERVENTION
Cool compresses or ice packs can provide immediate comfort after treatment.
An occlusive barrier such as Aquaphor will provide protection and comfort to treated area
and should be used until skin has reepithelialized.
_____________________________________________________________
Concurrent Procedures
Noninvasive light-based treatments like hair reduction or collagen stimulation may occur
prior to a 2940 nm Er:YAG Contour TRL Focused Single Spot Treatment . When treating
with the 2940 nm Er:YAG Contour TRL Focused Single Spot in combination with a MLP,
Focused Single Spot can be performed before or after the MLP.
Check with manufacturer for guidelines on using injectables in conjunction with 2940 nm
Er:YAG Contour TRL Focused Single Spot treatments.
_____________________________________________________________
Scanner grip
Scanner grip provides for a more comfortable hold while using the scanner. The grip is an
option for the user and can be used with any Sciton scanner.
Note: When using scanner grip, make sure it fits tightly on the scanner housing.
Standoffs permit the user to position the focal plane of the laser energy onto the skin
surface for consistent results. The user has an option of a standoff with or without a glass
plate.
Water from the laser system is circulated through the end of the scanner to help keep the
handpiece cool for the user during scanner use.
A white plastic locking screw is used to lock the handpiece in place after it is screwed to the
end of the articulated arm.
_____________________________________________________________
Attach the quick disconnect connectors on the end of the handpiece to the tubing
connected to the back of the laser.
The ProFractional Scanner allows fractional application of the laser energy by delivering
250 µm spots of energy within a pattern that ranges from 1.5 mm x 1.5 mm to 15 mm x15
mm in size. Aiming beam is represented by red square and shows the user the area to be
treated. The energy will be delivered inside the red square. When the red square is
“dancing” the system is in Standby. When the red square is solid the system is in Ready.
Standby Ready
Care should to be taken to apply adjoining scans without gap or excessive overlap of the
previously scanned area. Line each scan pattern up to each other to avoid gap or overlap
as shown above.
Attach the ProFractional Scanner to the articulated arm. Press the Fractional Resurfacing
softkey on the 2940 nm application screen and the system will enter the ProFractional
(2940 nm) application screen.
1
2
3 8
6
4 7
9
5 11 12
10
14 13
_____________________________________________________________
Scanner grip
The scanner grip provides for a more comfortable hold while using the scanner. The grip is
an option for the user and can be used with any Joule scanner.
Note: When using scanner grip, make sure it fits tightly on the scanner housing.
_____________________________________________________________
Attach the ProFractional-XC Scanner to the articulated arm. Press the Fractional
Resurfacing softkey on the 2940 nm application screen and the system will enter the
ProFractional-XC (2940 nm) application screen.
1
2
7 8
3 5
4 6
9 10 11 12
14 13
Offset to upper left Offset to upper middle Offset to upper right Offset to center
_____________________________________________________________
Attach the ProFractional III Scanner to the articulated arm. Press the Fractional
Resurfacing softkey on the 2940 nm application screen and the system will enter the
ProFractional III (2940 nm) application screen.
1
2
7 8
3 5
4 6
9 10 11
13 12
15 14
_____________________________________________________________
Offset to upper left Offset to upper middle Offset to upper right Offset to center
9.10.11.6 Precautions
Patients must be carefully evaluated by the physician for their risk of scarring versus the
treatment benefit, especially with selection of coagulation setting when using the
ProFractional-XC and ProFractional-III.
Treatment should be done in a conservative fashion in areas where the skin is thin, such
as the temple and forehead areas.
Post-treatment hyperpigmentation may occur after 3-4 weeks.
Direct and intentional sun exposure should be avoided for 7-10 days, then daily use of
sun block is recommended to avoid pigment related complications.
Patients who smoke may experience delayed healing and decreased benefit.
Selection of patients must include evaluation of Fitzpatrick Skin Type (I-VI).
ProFractional, ProFractional-XC/III without COAG, can safely and comfortably treat
patients with Fitzpatrick skin types I through VI without pigmentary changes but it is
recommended that a test spot be done on darker skin type patients first. Some patients
may experience transitory lines of demarcation with more aggressive ProFractional and
ProFractional-XC/III treatments. These lines resolve in a few days after treatment.
If COAG is used with ProFractional-XC/III it may pose a risk of long term or permanent
hypo or hyper-pigmentation, especially in darker skin types. Therefore, the COAG option
with ProFractional-XC/III is not recommended for use in Skin Types IV-VI.
Particulate debris on the lens of the scanner and/or glass plate standoff may result in
laser beam scattering and an incorrect setting for depth of treatment. Cleaning the lens
and glass plate standoff prior to, and during treatment, is essential to ensure accurate
treatment settings.
_____________________________________________________________
The removable ProFractional and ProFractional-XC/III standoffs are used to position the
focal plane of the laser energy onto the skin surface. The scanner should always be held
perpendicular to the skin surface for consistent results. The disinfected standoff should be
attached to the handpiece and held gently with continuous skin contact during the entire
treatment for precise focus and uniform delivery of energy.
The standoff with or without a sapphire plate can be used for ProFractional and
ProFractional-XC/III treatment. The two different standoffs are supplied to provide options
for the treatment provider.
The epidermis of body skin is thinner than that of the face and has fewer
adnexal healing structures. Peels beyond 100 microns in depth and more than
5% ProFractional or 5.5% ProFractional-XC/III in treatment area percentage
are not recommended in a single treatment. Re-treatment may occur as early
as 8 weeks. Treating body skin may not be ideal for patients with known
healing deficiencies.
Note: COAG is not recommended on body skin.
_____________________________________________________________
The following table summarizes ablative and thermal damage at various depth
settings:
_____________________________________________________________
Treatment Basics
Patient should be positioned based on the area to be treated. The position should be
comfortable to the patient and such that the treatment provider has good access to area
to be treated and the control panel display screen.
A mild cleanser should be used to remove any dirt, makeup or moisture from the
treatment site. Wipe the area with an alcohol gauze. Allow alcohol to evaporate before
treatment. Use special care around the eyes.
If topical anesthetic is to be used, apply as directed prior to treatment. Before beginning
treatment, ensure that topical has been completely removed from surface of skin.
Prepare for adequate smoke evacuation when using a standoff without a sapphire plate.
Attach clean handpiece with highly disinfected or autoclaved standoff to articulated arm.
Enter settings into the control panel display screen based on condition and area to be
treated.
_____________________________________________________________
Post-Treatment
OBSERVATIONS
Pinpoint or punctuate bleeding during and immediately following treatment.
Erythema and edema noted for approximately 12-48 hours after treatment depending on
depth and percentage of area treated.
INTERVENTION
Cool compresses or ice packs can provide immediate comfort after treatment.
An occlusive barrier such as Aquaphor will provide protection and comfort to treated area
and should be used until skin has reepithelialized.
Concurrent Procedures
_____________________________________________________________
Broadband Light or BBL is a comprehensive phototherapy system that incorporates dual flashlamp
technology, interchangeable filters, snap on adapters and a precise thermoelectric cooling system for safe,
effective and easy use.
BBL is innovative technology that sets new standards for the treatment of skin conditions associated with
aging, active lifestyles, and sun damage. Broadband Light energy can be used to treat age spots, small
facial veins (telangiectasias), rosacea, solar lentigines (freckles), brown spots, poikiloderma, skin laxity,
acne and remove hair.
BBL Operation
System functions are adjusted and selected via the control panel display screen. Press softkeys to select
application and treatment parameters. The BBL handpiece shown below is used to perform treatment.
The BBL handpiece is available in two versions, the standard BBL handpiece or the Shot Smart BBL
handpiece. The Shot Smart BBL handpiece has a built-in energy meter which counts the energy in
megajoule (MJ) units and allows the handpiece to be used for two additional applications – SkinTyte and
ForeverBare BBL Motion.
BBL handpiece
User Interface
BBL has multiple user interface screens for different uses. The application screens are accessed via the
Arm Application menu screen. Access to user screens also requires the appropriate filter to be inserted in
the handpiece. Each screen and its functions are outlined as follows.
_____________________________________________________________
Pressing the Go To BBL softkey will allow the user to enter into the Broadband Light Applications screen.
Application Header
Energy Counter
(ShotSmart handpiece only)
Application Header
Application Header displays the available Broadband Light Applications.
Energy Counter
This window displays the total energy in megajoule (MJ) delivered through the ShotSmart handpiece.
_____________________________________________________________
15 16
12
14 13 11
Manual Mode User Screen
1. Application indicator
Application indicator shows which application is being used for treatment.
2. Filter wavelength indicator
Filter wavelength indicator shows which wavelength is being used for the treatment.
3. Fluence indicator
Fluence indicator shows the amount of fluence or energy being delivered per pulse of BBL light.
The fluence is measured in joules per centimeter squared (J/cm2).
4. Fluence adjustment softkeys
Fluence adjustment softkeys allows the user to increase or decrease fluence by 1 J/cm2 by
tapping or holding down the up▲ or down ▼ arrow softkeys.
5. Pulse width indicator
Pulse width indicator shows the length of time the energy is being delivered per pulse of BBL
light. Pulse width is measured in milliseconds (ms).
6. Pulse width adjustment softkeys
Pulse width adjustment softkeys allows the user to increase or decrease pulse width by 5 ms by
tapping or holding down the up ▲ or down ▼ arrow softkeys.
7. Pulse repeat softkey
Pulse repeat softkey allows the user to set an amount of time between consecutive pulses of 1, 2,
3, 4 or 5 seconds by tapping the Repeat softkey. Repeat can also be turned off so that each pulse
is delivered by lifting and depressing the footswitch.
8. Cooling thermometer indicator
Cooling thermometer provides a pictorial representation of the cooling temperature of the BBL
crystal.
9. Cooling numerical temperature indicator
Cooling numerical temperature shows the degree of cooling selected by numerical value. The
temperature is measured in degrees Celsius (°C).
10. Cooling adjustment softkeys
Cooling adjustment softkeys allows the user to increase or decrease the temperature of the BBL
crystal by 1 °C by tapping or holding down the up ▲ or down ▼arrow softkeys. Temperature can
be set from 0 to 30 °C depending on the target and area being treated.
11. Number of accumulated pulses indicator
Number of accumulated pulses indicator shows how many pulses have been delivered since the
system was turned on or since the last time the reset softkey for accumulated pulses was reset.
12. Accumulated pulses reset softkey
Accumulated pulses reset softkey allows the user to reset the number of accumulated pulses to 0
by touching the reset softkey.
13. System status softkey
System status softkey allows the user to put the system in Standby or Ready.
14. Return to Broadband Light Applications screen softkey
Return to Broadband Light Applications softkey will return the system to the previous screen.
15. Memory Store
Permits the storage of up to 3 preset settings.
16. Memory Recall
Permits recall of up to 3 preset settings
_____________________________________________________________
9.11.2 Contraindications
The BBL system is contraindicated for:
9.11.3 Precautions
Performing a test spot or spots is indicated for assessing clinical responses of the epidermis. Be
sure to allow enough “wait time” for this observational process. This step should precede
performing a treatment to a whole area or when moving from one area to another such as face to
chest.
_____________________________________________________________
9.11.4 Complications
Complications, though rare, can occur and should be discussed and understood. The patient must
understand the importance of the post care instructions, and that failure to comply may increase the
potential for complications.
Scarring, though rare, can occur following any intense light procedure.
Histamine/Hives: some patients develop raised urticaria similar to hives. This irritation usually
subsides in a few hours.
Pigmentary changes: hyperpigmentation or hypopigmentation may occur. There is a higher risk in
darker skin types.
Purpura, which is purplish bruising, may occur in the treated area and may appear to be the size
and shape of the BBL crystal. These bruises may last for 1-2 weeks. Purpura usually results from
having the pulse width too short and/or fluence too high during the treatment. Purpura could also
occur from the concomitant use of anticoagulant medications.
Swelling around the eyes and bridge of nose may occur immediately after a BBL treatment and
may remain for 24-48 hours.
9.11.5 Warnings
Tattooed areas, and the area of skin 4-5 mm outside of the tattoo in all directions, should not be
treated. Tattoo ink may absorb energy resulting in a color change in tattoo ink or risk a burn, blister
and/or scarring.
Darkened moles should not be treated. Moles may absorb energy resulting in a color change
creating a risk of epidermal damage and the inability to monitor the lesion under ABCD guidelines
for melanoma detection.
There is a risk of “paradoxical effect” resulting from the activation of dormant hair follicles in
untreated areas close to hirsute-treated areas in subjects with facial hirsutism, which is diagnosed
with polycystic ovarian syndrome and presenting ovarian hyperandrogenism. Basically, treatment
with BBL could stimulate hair growth.
BBL should not be used on mucosal tissue such as inside the mouth, nose, ears, vagina or anus.
Absorption Curve shows the relationship of the variation in absorbed radiation as a function of
wavelength. The graphic shows absorption spectra of major intracellular absorbers. The molecular
absorption coefficients of oxygenated hemoglobin, melanin and water are shown.
_____________________________________________________________
Pulse width is the length of time that the target is exposed to the heat and is typically measured
in milliseconds (ms). Pulse width must be less than the Thermal Relaxation Time (TRT) of the
target. In other words, the pulse width must be long enough to allow heating of the target but
also short enough that the target can cool so that there is no heat buildup in surrounding skin
and tissue. The cooling time of a target is relative to its size, structure and density. Larger
targets take longer to cool than smaller ones. Likewise, a very densely pigmented target will cool
down slower than a target with less concentrated pigment. Refer to Treatment Starting
Parameters for safe start pulse width settings.
Fluence is the amount of heat or energy delivered into the target. Fluence is measured in units
of Joules/cm2. Refer to Treatment Starting Parameters for safe start fluence settings.
The higher the fluence selected, the higher the temperature of the target, the
surrounding tissue and the epidermis. Treating with excess energy can result in adverse effects
such as abnormal pigmentation, blistering and scarring. Patient response can vary, so the
fluence setting should begin low and be increased gradually after assessing the individual
patient response and observation of endpoints desired.
BBL Filters
Sciton cut-off filters used for BBL treatments are 420, 515, 560, 590/590ST, 640, 695/695ST and
ST/800ST wavelengths. Each filter blocks out wavelengths of light below the filter number selected
and allows only those wavelengths of light above the filter number to pass through. The exception to
this is the 420 nm filter, which is only a band of blue light.
_____________________________________________________________
When a filter has been chosen based on the particular treatment being provided, it is gently inserted
into the opening located on the top of the BBL handpiece.
Care should be taken not to touch or scratch the BBL filters. If the filters become dirty or
covered with fingerprints, an alcohol gauze may be used to clean the filter. DO NOT soak or
submerge BBL filters in water or any other liquid.
When choosing a filter for a specific treatment, remember that the shorter the wavelength (or smaller
the number on the filter) the more superficial the light or heat is deposited into tissue and the longer
the wavelength (the larger the number on the filter) the deeper into tissue the light or heat is
delivered. The longer the wavelength, less heat is deposited in skin and epidermis. Therefore, when
treating darker skins or tissue with excess target present, a longer wavelength is recommended.
Knowing what depth in tissue the target resides is critical when selecting the appropriate filter. A
Wood’s lamp or a camera with skin analysis software is a useful tool for making depth determinations.
Refer to Treatment Starting Parameter for filter selection.
Depth of Penetration
The following illustration provides a comparison of depth of penetration for various wavelengths of
light.
_____________________________________________________________
BBL has an integrated Thermo Electric cooled sapphire crystal that keeps the treatment area cool.
Skin surface temperature changes of 1 °C can cause immediately observable differences in the
clinical response.
Although absorption of the BBL light into a certain chromophore may be desirable, some epidermal
cooling is necessary to protect the skin. The amount of cooling required will vary depending upon the
patient’s skin type, and the fluence and pulse width selected. The lighter the skin type the less cooling
is necessary, while the darker the skin type more cooling will be necessary. Higher fluences and
shorter pulse widths may also require more epidermal cooling.
Surface cooling before, during and immediately after a BBL pulse, or after the light is converted to
heat, can quench heat from the surface and protect the epidermis from undesirable heating. Refer to
Treatment Starting Parameters for temperature settings.
Continuous observation of skin during a BBL treatment is critical and will ensure appropriate fluence,
pulse width and temperature settings have been selected and that skin integrity has not been
compromised.
_____________________________________________________________
Type Hair Color Skin Color and Eye Color Sun Reaction
Ethnic Background
Skin type V is the most under-typed skin. Often Asians will look very light and
have no history of sun exposure. Occasionally they have “bleached” their skin with
hydroquinone. Treating them as a III or IV (based on look and reaction to sun) could result
_____________________________________________________________
9.11.7.5 Photographs
Pictures should be taken prior to each treatment to document the progress of the treatment.
Photographs are useful in demonstrating efficacy of treatment to the patient.
Camera settings, distance, backdrop, and body/face angle, position and expression should
be the same for each photography session to maintain similar quality.
The patient should sign a photo release form if before and after pictures are to be used for
educational or marketing purposes.
_____________________________________________________________
Snap On Adapters
Treating Test Area: Treating a test area prior to beginning treatment will determine the
patient’s response threshold and help establish safe and effective treatment parameters.
Select test settings. Starting settings are based on specific protocol settings. Refer to
a specific Clinical Protocol for safe start settings.
If treating on the face, begin testing in the pre-auricular area with handpiece aligned
vertical to skin.
Depress the foot switch to deliver a pulse.
Wipe off gel and observe test area for 10 - 15 minutes for endpoints. Non-facial skin
may take longer to react; therefore more time will be needed for observation of test
area. Endpoints will be specific for each condition treated (Refer to Clinical Protocol).
If desired endpoints are observed with no adverse effects, treatment can be continued
until area is completed.
If endpoints are not noted, increase the intensity of treatment by the following actions,
in the following order (make only one change per test pulse):
Increase fluence by 1 J/cm2
Decrease pulse width by 5 ms
Increase (make warmer) cooling temperature by 2 - 5 °C
If reaction to test spot is too severe (intense erythema, purpura, immediate white or
grey presentation of skin), the settings should be decreased in intensity by the
following actions, in the following order:
Decrease fluence by 1 - 5 J/cm2 depending on intensity of reaction
Increase pulse width by 5 - 10 ms depending on intensity of reaction
Decrease cooling temperature 5 - 10 °C depending on intensity of reaction
Use a filter with a longer wavelength
_____________________________________________________________
In areas where skin is thinner; forehead, chin, jaw, clavicle, hands etc., fluence should be
decreased by 20%.
Use caution treating areas where permanent hair loss is not desired, such as a
man’s beard area and/or over eyebrows.
•Tattooed areas, and the area of skin 4 - 5 mm outside of the tattoo in all directions,
should not be treated. Tattoo ink may absorb energy from the BBL and result in a color
change of the tattoo or a burn/blister to the skin.
Darkened moles should not be treated. Moles may absorb heat from the BBL resulting in
a color change creating a risk of a burn or blister and the inability to monitor the mole
under ABCD guidelines for melanoma detection.
BBL treatments may be given in combination with other procedures. If a patient is
undergoing a MLP, Halo treatment and/or ProFractional or other resurfacing procedure,
the BBL should be performed first.
Check with manufacturer for guidelines on using injectables in conjunction with BBL
treatments.
_____________________________________________________________
P. acnes are a naturally occurring bacterium that is present on the skin, as well as within pores and
sebaceous glands, at all times. When dead skin and sebum become trapped and block the pores, P.
acnes rapidly multiply, causing follicle damage and inflammation. Once inflammation develops, the
degree of acne evolves, forming papules, pustules, nodules, and cysts.
Light Therapy
BBL visible light takes advantage of the photosensitivity of porphyrins. The porphyrins are produced
by the P. acnes. The blue light will cause photo excitation of these P. acnes porphyrins. This will form
singlet oxygen within the microorganism itself, leading to the selective destruction of bacteria.
Shorter wavelengths (blue light – 420 nm) are capable of the greatest absorption that specifically
target bacteria; whereas longer wavelengths (red light – 590 nm) produce deeper penetration into the
skin, targeting inflammation. The following graph illustrates excitation of porphyrin in Soret Band and
Q Bands.
Considering that P. acnes is rarely present without concomitant inflammation, the treatment
combination of blue and red light has demonstrated considerable success in treating mild to severe
inflammatory acne.
Forever Clear BBL is an acne treatment that uses the power of light to comfortably and effectively
clear acne without oral drugs in most cases and to maintain healthy, clear skin with minimal to no risk
of complications.
- Skin is first treated with blue BBL light to eliminate acne-causing bacteria. This step helps
reduce and improve the appearance of active acne as well as prevent new breakouts.
- Skin is then treated with yellow/red BBL light to reduce the inflammation and redness
associated with acne. This step helps resolve active inflammatory acne and reduce scarring.
- Skin is then treated with SkinTyte II using visible and infra-red BBL light. This step helps
complement the results of the first two steps and facilitates treatment of large areas quickly.
Fluence
Refer to Forever Clear BBL Acne Treatment Parameters for appropriate fluence selection.
The goal when treating with the BBL for acne is the use of porphyrin as a photosensitizer – not as a
heat inducer. Due to the fact that BBL acne treatment is not a thermal treatment, fluence is important
to the extent that it be at the appropriate level, in combination with the right pulse width, to equal a
sufficient dose of light needed to penetrate the skin and stimulate the destruction of P. acnes
bacteria.
_____________________________________________________________
Pulse Width
Refer to Forever Clear BBL Acne Treatment Parameters for appropriate pulse width selection.
The appropriate dose of light will ensure destruction of P.acnes bacteria. Long pulse widths will allow
the treatment to remain photochemical vs. photothermal.
Pulse Width should not need to be adjusted from protocol settings since heat is not a desired
endpoint.
Cooling
Refer to Forever Clear BBL Acne Treatment Parameters for appropriate cooling selection.
The BBL contact cooling crystal ensures that the epidermis is adequately protected as the 420nm,
560nm, 590nm, 640nm and 800nm light passes through the skin.
Patients should understand that to see optimal results with BBL acne treatments a minimum of 6
treatments at 2 week intervals are recommended.
_____________________________________________________________
Appropriate protective eyewear should be worn by both the patient and practitioner
throughout the duration of the treatment.
Permanent hair loss may occur in the area treated with BBL. Do not proceed with the treatment if hair
growth is desired in the treatment area.
rd
The following 2 steps outlined below should be followed at each treatment. The 3 step helps
complement the results of the first two steps and facilitates treatment of large areas quickly.
Treatment
Apply thin layer of colorless gel.
Select appropriate settings.
Complete area to be treated.
Touching the following Acne softkey permits the user to enter the Acne Application.
Acne softkey
(Allowed filters: 420nm, 560nm and
590nm, 640nm, 590ST and 800ST)
Step 1 Parameters:
_____________________________________________________________
Step 3 Parameters:
(Optional treatment to complement the results of the first two steps and facilitate treatment of large
areas quickly)
_____________________________________________________________
Post Treatment
Observation – Possible slight erythema for several hours after treatment.
Intervention – Cool compresses or ice packs, though rarely needed, can provide some comfort
after treatment. If blistering occurs, aggressive wound healing measures should be implemented.
Interval – Treatments are performed 1 - 2 times per weeks. A minimum of 6 treatments are
recommended. Destruction of P.acnes continues for a few weeks following the last BBL treatment
and the effects of the treatment will be maintained until bacterial populations rebuild to their initial
concentration. Some patients may require a maintenance treatment within 3 - 6 months of the
initial series of treatments.
If performing an acne treatment in conjunction with other procedures such as MLP or
ProFractional, perform the acne treatment first.
Check with manufacturer for guidelines on using injectables in conjunction with acne treatments.
_____________________________________________________________
Filter selection
Refer to Pigmented Lesion Treatment Starting Parameters for appropriate filter selection.
For pigmented lesions that reside deeper in tissue and for lesions that are more densely populated in
an area, a deeper penetrating filter should be chosen.
Melanin in the skin competes with the target lesions for absorption of the BBL light. Therefore, a
deeper penetrating filter should be chosen for patients with darker skin types.
Fluence
Refer to Pigmented Lesion Treatment Starting Parameters for appropriate fluence selection.
Darker targets absorb more energy/heat and will reach higher temperatures. Therefore, darker, more
concentrated pigmented lesions require less fluence than lighter colored, less concentrated
pigmented lesions to reach the same therapeutic level.
Pulse Width
Refer to Pigmented Lesion Treatment Starting Parameters for appropriate pulse width selection.
Pulse width should be shorter than the cooling time of the target to make sure that all the energy is
confined to the target. Smaller objects cool faster than larger ones. Therefore, the smaller the lesion
being treated, the less time on or a shorter pulse width needed. Conversely, when treating a larger
lesion, a longer pulse width should be selected to provide for a longer period of heat delivery.
.
Pigmented lesions with low concentrations of pigment will cool down quicker than densely pigmented
ones. Therefore, “lighter’, less concentrated areas of lesions should be treated with shorter pulse
widths and “darker”, more concentrated areas of lesions should be treated with longer pulse widths.
Darker skin absorbs more light and heats to a higher temperature, therefore pulse width should be
longer for darker skin.
Cooling
Refer to Pigmented Lesion Treatment Starting Parameters for appropriate temperature selection.
Although absorption of the BBL light in melanin is desirable, some epidermal cooling is essential to
protect the skin. The amount of cooling required will vary with skin type, amount of target present, and
area treated.
_____________________________________________________________
Treatment
Apply thin layer of colorless gel
Select appropriate settings
Treat test area to establish safe treatment parameters and desired endpoint.
Once appropriate settings are selected, complete treatment area.
_____________________________________________________________
+
Skin Type Pigment Fluence Pulse Width Temperature
Color (J/cm2) (ms) (°C)
12 10 25
9 20 20
9 20 22
8 25 18
7 30 15
6 35 10
_____________________________________________________________
+
Skin Type Pigment Fluence Pulse Width Temperature
Color (J/cm2) (ms) (°C)
15 15 15
12 15 20
12 15 15
10 15 20
10 20 15
10 20 15
_____________________________________________________________
+
Skin Type Pigment Fluence Pulse Width Temperature
Color (J/cm2) (ms) (°C)
10 15 22
7 20 18
7 20 18
7 25 15
5 30 15
5 35 10
_____________________________________________________________
+
Skin Type Pigment Fluence Pulse Width Temperature
Color (J/cm2) (ms) (°C)
15 15 15
12 15 20
12 15 18
10 15 15
10 20 15
10 20 15
The following verification message for the use of small adapter will be displayed prior to
display of the pigmented lesion application screen. Please ensure that the small adapter is attached
to the BBL handpiece. A small bead of gel should be placed on the sapphire glass on the underside
of the adapter, prior to snapping it on to the full crystal. This will allow for better light transmission.
_____________________________________________________________
Post Treatment
Observation – Erythema for several hours after treatment
Intervention – Cool compresses or ice packs can provide some comfort after treatment. If
blistering occurs, aggressive wound healing measures should be implemented.
Interval – Treatments are performed 3 - 4 weeks apart. 3 - 5 treatments may be required.
If performing a BBL Pigmented Lesion treatment in conjunction of other procedures such as MLP
or ProFractional, perform the pigmented lesion treatment first.
Check with manufacturer for guidelines on using injectables in conjunction with BBL pigmented
Lesion treatments.
_____________________________________________________________
The theory of Selective Photothermolysis explains how wavelength, energy and pulse width in
relation to Thermal Relaxation Time (TRT) all play a role in the destruction of a target and the
preservation of surrounding tissue.
Using the theory of selective photothermolysis, benign vascular lesions can be treated with the
appropriate BBL filter and settings that will cause selective absorption of light in the blood that is
flowing through the targeted vessel. The absorption converts light into heat energy, which raises the
temperature of the blood. Heat is conducted to the lining of the vessel wall leading to its injury. This
results in slow elimination of the vascular lesion by the macrophages of the immune system. All of
this should happen selectively and without damage being done to the epidermis or surrounding
tissue.
Filter Selection
Refer to Vascular/Skin Treatment Starting Parameters for appropriate filter selection.
For vascular lesions, flushing, blushing and/or rosacea that resides deeper in tissue and for areas
where these conditions are more densely populated, a deeper penetrating filter should be chosen.
Melanin in the skin competes with the targeted vascular lesions for absorption of the BBL light.
Therefore, a deeper penetrating filter should be chosen for patients with darker skin types.
Fluence
Refer to Vascular/Skin Treatment Starting Parameters for appropriate fluence selection.
Targets that have more dense vascularity absorb more energy/heat and will reach higher
temperatures. Therefore, redder, more concentrated areas of vascular lesions require less fluence
than lighter colored, less concentrated areas of vascular lesions to reach the same therapeutic level.
Pulse Width
Refer to Vascular/Skin Treatment Starting Parameters for appropriate pulse width selection.
Pulse width should be shorter than the cooling time of the target to make sure that all of the energy is
confined to the target. Smaller objects cool faster than larger ones. Therefore, the smaller the
vascular lesion being treated the less time on, or a shorter pulse width. Conversely, when treating a
larger vascular lesion, a longer pulse width should be selected to provide for a longer period of heat
delivery.
Vascular lesions with less dense vascularity will cool down quicker than more densely pigmented
ones. Therefore, “lighter’, less concentrated vascular lesions should be treated with shorter pulse
widths and “redder”, more concentrated lesions should be treated with longer pulse widths.
Darker skin absorbs more light and heats to a higher temperature, therefore pulse width should be
longer for darker skin.
_____________________________________________________________
Treatment
Apply thin layer of colorless gel
Select appropriate settings
Treat test area to establish safe treatment parameters and desired endpoint.
Once appropriate settings are selected, complete area to be treated
Be careful not to apply pressure to the skin with the BBL handpiece. Complete contact with the
entire BBL crystal and skin should be maintained at all times throughout a pulse; however pressure
should be avoided to prevent possible blanching of the vessels in the treated area. If vessels are
blanched there is no longer a target for the BBL light.
_____________________________________________________________
BBL Vascular Rosacea Treatment Starting Parameters – FACIAL Tissue with Large Area Spot
+
Skin Type Fluence Pulse Width Temperature
(J/cm2) (ms) (°C)
14 20 20
12 20 20
10 30 15
_____________________________________________________________
+
Skin Type Fluence Pulse Width Temperature
(J/cm2) (ms) (°C)
15 20 20
13 20 20
11 30 15
_____________________________________________________________
The following verification message for the use of small adapter will be displayed prior to
display of the Facial Vessels application screen. Please ensure that the small adapter is attached to
the BBL handpiece. A small bead of gel should be placed on the sapphire glass on the underside of
the adapter, prior to snapping it on to the full crystal. This will allow for better light transmission.
_____________________________________________________________
BBL Vascular Body Treatment Starting Parameters – BODY Tissue with Large Area Spot
+
Skin Type Fluence Pulse Width Temperature
(J/cm2) (ms) (°C)
10 20 20
8 20 20
8 30 15
_____________________________________________________________
+
Skin Type Fluence Pulse Width Temperature
(J/cm2) (ms) (°C)
11 20 20
9 20 20
9 30 15
_____________________________________________________________
The following verification message for the use of small adapter will be displayed prior to
display of the Cherry Angioma application screen. Please ensure that the small adapter is attached to
the BBL handpiece. A small bead of gel should be placed on the sapphire glass on the underside of
the adapter, prior to snapping it on to the full crystal. This will allow for better light transmission.
_____________________________________________________________
The following verification message for the use of small adapter will be displayed prior to
display of the Rosacea application screen. Please ensure that the small adapter is attached to the
BBL handpiece. A small bead of gel should be placed on the sapphire glass on the underside of the
adapter, prior to snapping it on to the full crystal. This will allow for better light transmission.
_____________________________________________________________
Post Treatment
Observation – Erythema for several hours after treatment.
Intervention – Cool compresses or ice packs can provide some comfort after treatment. If
blistering occurs, aggressive wound healing measures should be implemented.
Interval – Treatments are performed 2 - 4 weeks apart. 5 - 7 treatments may be required.
If performing a BBL Vascular/Skin treatment in conjunction of other procedures such as MLP or
ProFractional, perform the vascular treatment first.
Check with manufacturer for guidelines on using injectables in conjunction with BBL Vascular/Skin
treatments.
_____________________________________________________________
Hair revolves through three phases of growth: anagen, catagen and telogen. It is only during the
growing phase, anagen, that hair reacts to BBL light. Not all hair present in an area is in the anagen
phase at the same time. Duration of hair growth cycles depends on the body location being treated.
Multiple treatments are necessary over a time span of typically 4-8 week intervals to remove hair from
most areas. Reference Richards-Merhag Chart in the Appendix of this manual.
anagen: the phase of the hair cycle during which synthesis of hair takes place. This is
the active growing phase in which the hair bulb is intact.
catagen: brief intermediate phase between anagen and telogen. During this phase,
the body absorbs the lower third of the follicle.
telogen: this is the resting phase. The hair bulb is no longer present. It is now a club
hair, which will fall out or be pushed out of the follicle by a new anagen growing hair.
Filter Selection
Refer to Hair Reduction Treatment Starting Parameters for appropriate filter selection.
Melanin in the skin competes with the targeted hair for absorption of the BBL light. Therefore, a
deeper penetrating filter should be chosen for patients with darker skin types.
_____________________________________________________________
_____________________________________________________________
Hair to be treated should be shaved 0 - 24 hours prior to treatment. Hair should not be waxed or
plucked for 4 weeks prior to treatment.
Measure treatment area using the template as a guide. The template below has 6 squares that are
2
each 25 cm (size of a 2”x 2” sticky note). The template sizes also correlate to the Preset
2 2 2 2 2
Parameters. There are 6 Area Size Selections: 25 cm , 50 cm , 75 cm , 100 cm , 125 cm and
2
150 cm .
Treatment Size Template Squares Number of Crystal Widths
25 cm2 1 3
50 cm2 2 6
75 cm2 3 9
100 cm2 4 12, or 2 rows of 6
125 cm2 5 15
150 cm2 6 18, or 2 rows of 9
Apply a 4-5 mm layer of colorless ultrasound gel to clean, dry skin. Be sure length of hair is no
more than 0.5mm
Attach smoothie to the large rectangle crystal. The size of the treatment area should be at least 25
sq cm
Select the Forever Bare BBL Motion to display the Preset Parameters Screen.
_____________________________________________________________
2 4
3
5
7 8 9
Select approximate working size of area, skin type, hair color, diameter and density. Input this
information by pressing corresponding softkey in the above Preset Parameter Screen.
Note: Forever Bare BBL Motion technique for hair removal utilizes easy-to-use Preset
Parameters. This information will populate the proper treatment settings into the Forever Bare
BBL Treatment Screen.
2
In the example above from the Forever Bare BBL Motion Preset Parameters Screen, a 50 cm
area was selected for a Skin Type III patient with dark brown, medium diameter hair at medium
density growth.
Press the Apply Settings softkey.
1
2
6
3 5
This screen displays the
parameters derived from
4 preset selection.
10
7 9
8
12
14 13 11
_____________________________________________________________
Moving the handpiece too slowly within a treatment area may cause a burn or dermal
injury. If the handpiece is not moved quickly enough, the epidermis is being heated without efficient
or effective delivery of the heat to the dermis.
2
Once that area is completed move on to the next measured 100 cm or 4” x 4” area and treat in
the same manner.
_____________________________________________________________
Endpoints
It is important to gauge the patient’s response during the procedure. Patients routinely find the
motion procedure more comfortable than other Hair Removal technology. However, if the patient is
uncomfortably warm in the treatment area and the recommended Total Energy has not been
delivered, then adjustments to the speed, temperature, or rate should be considered. If the patient
is uncomfortable and the target energy has not been reached, proceed to the next area. Forever
Bare BBL technology makes treating areas where hair is dense, dark, and/or coarse more tolerable
for the patient.
Smell of success (SOS) – hair has a unique and very noticeable odor when it is heated during the
light pulsing.
Slight follicular edema and erythema that resolves within 1 - 4 hours of treatment.
Post Treatment
Observation – Erythema for several hours after treatment. Treated hairs can take up to 7 - 14 days
to exfoliate from the follicle and may appear to be “growing” during this time.
Intervention – While usually not an issue with Forever Bare motion technique, cool compresses or
ice packs can provide some comfort after treatment. If blistering occurs, aggressive wound healing
measures should be implemented.
Sunscreen with at least SPF 30 is recommended on body locations that have exposure to the sun
for at least 2 weeks after treatment to avoid burning or post inflammatory hyperpigmentation (PIH).
Interval – Treatments are performed 4 - 8 weeks apart. Typically, 4-6 weeks for face and neck and
6-8 weeks for body locations. 5 - 7 or more treatments may be required. Consistency of the interval
is critical to hair removal success.
If performing hair removal treatments in conjunction of other procedures such as MLP® or
ProFractional™, perform hair removal first.
Note: Check with manufacturer for guidelines on using injectables in conjunction with hair removal
treatment.
Manual Mode
The preset parameters can be bypassed by the user. Touching the Manual Mode softkey allows the
user to set the energy, rate and temperature as desired.
_____________________________________________________________
3 4
2 5
6
7
9 8
Select the treatment area (face or body), skin type, hair color, diameter and density, and the type of
adaptor. Input this information by pressing corresponding softkey in the above Preset Parameter
Screen.
Note: The BBL Static Hair Removal utilizes easy-to-use Preset Parameters. This information
will populate the proper treatment settings into the BBL – Hair Static Treatment Screen.
In the example above from the BBL Static Hair Removal Preset Parameters Screen, face is
selected for treatment for a Skin Type III-IV patient with dark brown, medium diameter hair at
medium density growth.
_____________________________________________________________
4
2 3 5
This screen displays the
6 parameters derived from
preset selection.
9
11 10 8
Hair to be treated should be shaved 0 - 24 hours prior to treatment. Hair should not be waxed or
plucked for 4 weeks prior to treatment.
Apply thin layer of colorless gel.
Select appropriate settings.
Treat test area to establish safe treatment parameters and desired endpoint.
_____________________________________________________________
Post Treatment
Observation – Erythema for several hours after treatment. Treated hairs can take up to 7 - 14 days
to exfoliate from the follicle and may appear to be “growing” during this time.
Intervention – Cool compresses or ice packs can provide some comfort after treatment. If
blistering occurs, aggressive wound healing measures should be implemented.
Interval – Treatments are performed 4 - 8 weeks apart. 5 - 7 treatments may be required.
If performing hair reduction treatments in conjunction of other procedures such as MLP or
ProFractional, perform hair reduction first.
Check with manufacturer for guidelines on using injectables in conjunction with hair reduction
treatments.
Note: Check with manufacturer for guidelines on using injectables in conjunction with hair removal
treatment.
_____________________________________________________________
Protocol Introduction
SkinTyte II is a fast intense pulsed light non-invasive skin firming treatment. SkinTyte II treatments
utilize optimized cut-off filters which emit energy with wavelengths in the visible to infrared spectrum,
and provide dermal heating for the purpose of elevating tissue temperature for firmer skin. This
proprietary technology is used to selectively heat the water within the dermal collagen matrix.
Note: BBL is not cleared in Canada for the treatment of non-invasive skin firming.
1 2 3 4
Surface of Skin
Tight, firm skin requires good elasticity. Elasticity means the ability of the skin to snap back or tighten
after it has been displaced or pulled away from the body. Good elasticity depends on healthy collagen
and elastin fibers that lie very deep, near the bottom of the dermis. Collagen and elastin fibers act like
small rubber bands that hold the skin tight against our body, and pull the loose tissue back when it is
stretched or pulled.
Aging, sun damage from ultraviolet (UV) light, smoking, stress, excessive alcohol intake and an
unhealthy diet and lifestyle all destroy collagen and elastin in the dermis and cause the skin to loosen
and sag. Although it is located beneath the epidermis, it is changes to the dermis that cause the outer
skin to wrinkle and lose elasticity. As we grow older, the amount of fat found in our lower layer of skin
decreases, our glands produce less oil, and collagen and elastin fibers lose their elasticity. The
natural process of cell reproduction in the dermal layer also decreases, resulting in a slower
rejuvenation of our skin cells.
SkinTyte II deposits heat into the dermis. The epidermis is a robust and resilient structure that is at
the surface of the skin. It functions as a physical barrier to protect the deeper dermis, and to retain the
skin’s hydration. As a result of cooling by the sapphire crystal the highest temperature will occur
below the epidermis in the more hydrated dermis. The result is a higher temperature within the
dermis. The immediate response to this thermal exposure is a contraction of the collagen and elastin
fibrils. Longer term, fibroblasts are activated stimulating the production of new collagen, elastin and
other components of the extracellular matrix in response to wound healing which takes place up to six
months after the initial heating. This tissue remodeling results in a thickening of the dermis and the
shrinking of the elastin fibers, resulting in improvement of skin firmness.
Fluence
In light based medicine, fluence is referred to as radiant exposure or the measurement of energy over
area. The area is usually the spot size of the light device. The energy is thermal. Collagen strands are
denatured and elastin will contract in response to high temperatures. Ideally, the peak temperature is
_____________________________________________________________
Pulse Width
Pulse width is the length of the pulse measured in time. The pulse width used in the SkinTyte II
procedure is measured in seconds for both “Static” and Motion” techniques. In the “Static” technique
the longer pulse width reduces the power, whereas the shorter pulse width increases power for a
given fluence setting. In the “Motion” technique the average power delivered is set by the intensity;
the pulse width determines the energy delivered.
Cooling
Skin is naturally cooler at the surface. SkinTyte II modifies the normal temperature gradient in skin by
heating a subsurface layer while cooling the surface. Elastin and collagen lie very deep in the dermis.
The major challenge when trying to heat this area in tissue is to get enough heat deep down in the
dermis without burning the surface of the skin as the heat passes through the more superficial layers.
A thermally controlled sapphire crystal on the BBL handpiece is used to control the skin surface
temperature to a precise temperature. All patients and areas treated will then have similar
temperature profiles regardless of their normal skin temperature. Infrared light from SkinTyte II is
applied to the surface of the skin and penetrates down below. The pre-cooled region stays cool while
a layer several millimeters below the surface is preferentially heated.
The three filters are skin type specific and have tissue recommendations for use:
The 590ST and 695ST filters have a wider range of light that permits greater transfer of heat thus
heating the treatment area faster than the 800ST filter.
_____________________________________________________________
590ST and 695ST filters can only be used with the Motion Technique. 800ST can be
used for both Static and Motion Technique.
The goal when treating with SkinTyte II using the Motion Technique is to heat the target to a
temperature that is sufficient to stimulate collagen, but not to the point that the heat damages skin
2
and surrounding tissue. The SkinTyte II Motion treatment uses intensity which is Watts/cm to
2
measure energy over an area of treatment (different from 800ST Static Technique that uses J/cm ).
The following are performance factors when providing a SkinTyte II motion technique procedure.
Intensity
Time
Wavelength
Spot size
Accumulated energy
Motion (continual movement of the BBL handpiece during each measured cycle)
Epidermal temperature monitoring
Time indicates the length of time the energy is being delivered per pass of BBL light.
Intensity is the amount of energy delivered into the target. Intensity is measured in units of
2
Watts/cm . Refer to Treatment Starting Parameters for safe start intensity settings.
The higher the intensity selected, the higher the temperature of the target, the surrounding
tissue and the epidermis. Treating with excess energy can result in adverse effects such as abnormal
pigmentation, blistering and scarring. Patient response can vary, so the intensity setting should begin
low and be increased gradually after assessing the individual patient response and observation of
endpoints desired. Reference treatment endpoints at the end of this section.
_____________________________________________________________
8
5 7
4 6
3 10
9
14 13
12
16 15 11
1. Application indicator
Application indicator shows which application is being used for the treatment.
2. Filter wavelength indicator
Filter wavelength indicator shows which wavelength is being used for the treatment.
3. Intensity indicator
Intensity indicator shows the amount of power being delivered per second of BBL light. Intensity
2
is measured in watts per centimeter squared, W/cm .
4. Intensity adjustment softkeys
2
Intensity adjustment softkeys allow the user to increase or decrease intensity by 1W/cm by
tapping or holding down the up ▲ or down ▼ arrow softkeys.
5. Time indicator
Time indicator shows the length of time the energy is being delivered per pass of BBL light. Time
is measured in seconds (s).
6. Time adjustment softkeys
Time adjustment softkeys allow the user to increase or decrease the time on with the energy by 1
second (s) by tapping or holding down the up ▲ or down ▼ arrow softkeys.
7. Spot size adjustment softkey
Spot size adjustment softkey allows the user to toggle between the 15x45 mm spot and the 15x15
mm spot.
8. Cooling thermometer indicator
Cooling thermometer provides a pictorial representation of the cooling temperature of the BBL
crystal.
9. Cooling numerical temperature indicator
Cooling numerical temperature indicator shows the degree of cooling selected by numerical
value. The temperature is measured in degrees Celsius (°C).
10. Cooling adjustment softkeys
Cooling adjustment softkeys allow the user to increase or decrease the temperature of the BBL
crystal by 1 °C by tapping or holding down the up ▲ or down ▼arrow softkeys. Temperature can
be set from 0 to 30 °C depending on the target and area being treated.
11. Number of accumulated pulses indicator
Number of accumulated pulses indicator shows how many pulses have been delivered since the
system was turned on or since the last time the reset softkey for accumulated pulses was reset.
12. Accumulated pulses reset softkey
Accumulated pulses reset softkey allows the user to reset the number of accumulated pulses to 0
by touching the reset softkey.
13. Accumulated data reset softkey
Accumulated data reset softkey allows the user to reset the total energy delivered to 0 by
touching the reset softkey
14. Accumulated Data
The accumulated data is the total energy delivered. When the 15x15 mm spot is activated the
accumulated data is approximaltey1/3 less.
15. System status softkey
System status softkey allows the user to put the system in Standby or Ready.
16. Return to Broadband Light Applications screen softkey
Return to Broadband Light Applications softkey will return the system to the previous screen
_____________________________________________________________
SkinTyte II treatment may be performed on all skin types. 590ST is used for treating skin types I-
III, 695ST is for skin types IV-VI and 800ST can be used on all skin types, I-VI. When treating darker skin,
technique and parameters remain the same, however, patient feedback and temperature monitoring
should be performed more frequently on skin type V & VI.
Snap On Adapter
When moving the BBL handpiece, there is a risk that the corners of the full crystal and the square
snap on adapter can scratch the patient’s skin and cause injury. A snap on Smoothie adapter is
recommended to prevent injury and to allow for greater patient comfort.
Keep the BBL handpiece in constant, steady motion in a 6 x 1 sized pattern during the entire
duration of the pulse.
Moving the handpiece too slowly within a treatment area may cause a burn or dermal injury.
If the handpiece is not moved quickly enough, the epidermis is being heated without efficient or
effective delivery of the heat to the dermis.
Move the handpiece 6 crystal widths in one continuous direction, then reverse the direction 6
crystal widths as seen below.
Multiple passes are applied by moving the handpiece back and forth in the direction shown.
Perform one pass to test patient response to the heat, if the heat is tolerable then continue to
perform 2-3 passes over the treatment area and then take an external temperature to gauge heat
buildup. Continue passes until a temperature of 38-42 °C is reached.
_____________________________________________________________
BBL/BBLs SkinTyte II Motion Technique Safe Start Parameters for Delicate Areas (under
eyes, backs of hands, bony prominences, etc.) using the 15 x 15 square snap on adapter
Original ST Filter Safe Start Parameters - practitioners with original SkinTyte who upgrade to
SkinTyte II - Refer to conversion table below for settings.
_____________________________________________________________
Post Treatment
Observation – Possible erythema and a palpable change (firmness) may be felt in the treated area
for several hours after treatment. Patients may report a feeling of tightness in the area treated.
Intervention – Cool compresses or ice packs, though rarely needed, can provide some comfort
after treatment. If blistering occurs, aggressive wound healing measures should be implemented.
Interval – Treatments are performed 3 - 4 weeks apart. A minimum of 4 treatments are
recommended with optimal results not being evident for 3 - 6 months after last treatment.
®
If performing SkinTyte II procedure in conjunction of other procedures such as MLP or
ProFractional™, perform SkinTyte II™ first.
Check with manufacturer for guidelines on using injectables in conjunction with SkinTyte II
treatments.
_____________________________________________________________
1
2
7 9
3 5 11
4 6
10
8
13
15 14 12
1. Application indicator
Application indicator shows which application is being used for the treatment.
2. Filter wavelength indicator
Filter wavelength indicator shows which wavelength is being used for the treatment.
3. Fluence indicator
Fluence indicator shows the amount of fluence or energy being delivered per pulse of BBL light.
2
Fluence is measured in joules per centimeter squared, J/cm .
4. Fluence adjustment softkeys
2
Fluence adjustment softkeys allow the user to increase or decrease fluence by 5 J/cm by tapping
or holding down the up ▲ or down ▼ arrow softkeys.
5. Time indicator
Time indicator shows the length of time the energy is being delivered per pulse of BBL light. Time
is measured in seconds (s).
6. Time adjustment softkeys
Time adjustment softkeys allow the user to increase or decrease the time on with the energy by
1 second (s) by tapping or holding down the up ▲ or down ▼ arrow softkeys.
7. Treatment pulse repeat softkey
Treatment pulse repeat softkey will allow the user to set an amount of time between consecutive
pulses of 1, 2, 3, 4 or 5 s by tapping the Repeat softkey. Repeat can also be turned off so that
each scan pattern is delivered by lifting and depressing the footswitch.
_____________________________________________________________
Treatment Basics
SkinTyte II treatment with the 800ST filter may be performed on all skin types. Patient
feedback should be performed more frequently on skin type V & VI. When treating darker skin,
technique and parameters remain the same, however, patient feedback and temperature monitoring
should be performed more frequently on skin type V & VI.
Apply thin layer of room temperature, colorless gel.
Select appropriate settings.
BBL handpiece should be held parallel to the surface of the skin at all times. Move patient if
necessary to accomplish this 90 degree angle. All edges of the BBL crystal should be in complete
contact with skin at all times throughout the entire BBL pulse. For highly curved areas, such as the
forehead, chin and cheeks, where maintaining complete contact with the large rectangle BBL
crystal is not possible, the smaller snap on adapter may yield a better result. A small bead of gel
should be placed on the sapphire glass on the underside of the adapter, prior to snapping it on to
the full crystal. This will allow for better light transmission.
Snap On Adapter
Perform one pass of test pulses. A pass is no more than 4 pulses in a given area. Until appropriate
2
endpoints are observed, increase fluence by 5 J/cm and repeat test pass.
_____________________________________________________________
I – VI 800ST 40 5 12 2 4-5
Note: Decrease fluence 15-20% over bony areas such as forehead, clavicles, etc.
Endpoints
Patients report moderate amount of deep heat in the area being treated. Typically a scale of 1 - 10
is used to evaluate heat. 1 is equivalent to almost no heat being felt and 10 is equivalent to the
most intense heat ever experienced or imagined. Patients should be at a 5 or 6 on this scale
throughout most of the pulse delivery with it escalating towards a 10 on the last second of the
pulse. The area being treated should be moderately warm throughout the entire pulse with the
intensity of the heat escalating towards the end of the pulse and with each successive pass.
Slight to moderate erythema.
Post Treatment
Observation – Possible erythema and a palpable change (firmness) may be felt in the treated area
for several hours after treatment. Patients may report a feeling of tightness in the area treated.
Intervention – Cool compresses or ice packs, though rarely needed, can provide some comfort
after treatment. If blistering occurs, aggressive wound healing measures should be implemented.
Interval – Treatments are performed 3 - 4 weeks apart. A minimum of 4 treatments are
recommended with optimal results not being evident for 3 - 6 months after last treatment.
®
If performing SkinTyte II procedure in conjunction of other procedures such as MLP or
ProFractional™, perform SkinTyte II™ first.
Check with manufacturer for guidelines on using injectables in conjunction with SkinTyte
treatments.
_____________________________________________________________
BBL diVaTyte is only performed in motion technique with 695ST & 800ST filters.
diVaTyte, is a light-based treatment using selected wavelengths of light to penetrate deep into
external vaginal skin. The sapphire quartz adapter is gently massaged on the treatment area to
deliver the therapeutic light that heats the dermal layer and elevates tissue temperature, resulting in a
more pleasing appearance and a feeling of improved tone and skin firmness. diVaTyte is the
companion technology with diVa™ Laser Vaginal Therapy; the synergy optimizes both internal and
external tissue to provide a total solution in feminine health.
diVaTyte exterior vaginal skin treatment is based on the same, non-ablative BBL technology for
SkinTyte™, which is used on other body skin, such as face, neck, and abdomen. diVaTyte utilizes
powerful contact-cooling to protect the epidermis while allowing the therapeutic target-specific
infrared energy to volumetrically yet gently heat deep into the layers of skin where collagen and
elastin reside to raise tissue temperatures and initiate the body’s natural repair and rebuild
responses.
The following are performance factors when providing a diVaTyte motion technique procedure.
Intensity
Intensity is the amount of energy delivered into the target. Intensity is measured in units of
2
watts/cm . Refer to Treatment Starting Parameters for safe start intensity settings.
Time
Time indicates the length of time the energy is being delivered per pass of light.
Wavelength
Spot size
Accumulated energy
Motion (continual movement of the BBL handpiece during each measured cycle)
Epidermal temperature monitoring
The higher the intensity selected, the higher the temperature of the target, the surrounding
tissue and the epidermis. Treating with excess energy can result in adverse effects such as abnormal
pigmentation, blistering and scarring. Patient response can vary, so the intensity setting should begin
low and be increased gradually after assessing the individual patient response and observation of
endpoints desired.
Reference treatment endpoints at the end of this section.
_____________________________________________________________
8
5 7
4 6
3 10
9
14 13
12
16 15 11
1. Application indicator
Application indicator shows which application is being used for the treatment.
2. Filter wavelength indicator
Filter wavelength indicator shows which wavelength is being used for the treatment.
3. Intensity indicator
Intensity indicator shows the amount of power being delivered per second of BBL light. Intensity
2
is measured in watts per centimeter squared, W/cm .
4. Intensity adjustment softkeys
2
Intensity adjustment softkeys allow the user to increase or decrease intensity by 1W/cm by
tapping or holding down the up ▲ or down ▼ arrow softkeys.
5. Time indicator
Time indicator shows the length of time the energy is being delivered per pass of BBL light. Time
is measured in seconds (s).
6. Time adjustment softkeys
Time adjustment softkeys allow the user to increase or decrease the time on with the energy by 1
second (s) by tapping or holding down the up ▲ or down ▼ arrow softkeys.
7. Spot size adjustment softkey
Spot size adjustment softkey allows the user to toggle between the 15x45 mm spot and the 15x15
mm spot.
8. Cooling thermometer indicator
Cooling thermometer provides a pictorial representation of the cooling temperature of the BBL
crystal.
9. Cooling numerical temperature indicator
Cooling numerical temperature indicator shows the degree of cooling selected by numerical
value. The temperature is measured in degrees Celsius (°C).
10. Cooling adjustment softkeys
Cooling adjustment softkeys allow the user to increase or decrease the temperature of the BBL
crystal by 1 °C by tapping or holding down the up ▲ or down ▼arrow softkeys. Temperature can
be set from 0 to 30 °C depending on the target and area being treated.
11. Number of accumulated pulses indicator
Number of accumulated pulses indicator shows how many pulses have been delivered since the
system was turned on or since the last time the reset softkey for accumulated pulses was reset.
12. Accumulated pulses reset softkey
Accumulated pulses reset softkey allows the user to reset the number of accumulated pulses to 0
by touching the reset softkey.
13. Accumulated data reset softkey
Accumulated data reset softkey allows the user to reset the total energy delivered to 0 by
touching the reset softkey
14. Accumulated Data
The accumulated data is the total energy delivered. When the 15x15 mm spot is activated the
accumulated data is approximately1/3 less.
15. System status softkey
System status softkey allows the user to put the system in Standby or Ready.
16. Return to Broadband Light Applications screen softkey
Return to Broadband Light Applications softkey will return the system to the previous screen
_____________________________________________________________
diVaTyte external vaginal skin treatment may be performed on all skin types. 695ST is used for
skin types I-IV and 800ST is used for skin types V-VI. When treating darker skin, technique and
parameters remain the same, however, patient feedback and temperature monitoring should be performed
more frequently.
Snap On Adapter
Use Snap On Smoothie Adapter to prevent injury and to allow for greater patient comfort.
The BBL handpiece should be held parallel to the surface of the skin at all times. Move patient if
necessary to accomplish this 90 angle. The entire surface of the BBL crystal should be in
complete contact with skin at all times throughout entire BBL pulse. Pay attention to curved areas,
such as the mons pubis.
Keep the BBL handpiece in constant, steady motion during the entire duration of the pulse.
Moving the handpiece too slowly within a treatment area may cause a burn or dermal injury.
If the handpiece is not moved quickly enough, the epidermis is being heated without efficient or
effective delivery of the heat to the dermis.
_____________________________________________________________
Multiple passes are applied by moving the handpiece back and forth in the direction shown.
Perform one pass to test patient response to the heat, if the heat is tolerable then take an external
temperature to gauge heat buildup. Continue passes until a temperature of 38-42°C is reached.
Ideally, 42 °C is desired; however, some tissue may be thin, and 38°C is acceptable.
Use vertical motion passes starting 1 cm below clitoris to the posterior labial commissure.
Perform 2 complete motion passes per side. Consider 3 passes if large surface area.
Once 38-42 °C is reached, decrease the intensity to 7W and maintain with additional passes for 90
seconds.
diVaTyte Utilizes BBL/BBLs SkinTyte II Motion Technique Safe Start Parameters
Endpoints
Patients report moderate amount of deep heat in the area being treated. The area being treated
should be moderately warm throughout the entire pass with the intensity of the heat escalating as
temperature of the skin gets to 38-42 °C. In some cases, the patient will indicate the need to move
to the next area due to the intense heat sensation even prior to external skin temperatures
reaching 38-42 °C.
_____________________________________________________________
_____________________________________________________________
Forever Young BBL treatments are effective for keeping skin healthy and slowing the signs of skin
aging (e.g. laxity, pigmented and vascular lesions, uneven pigmentation and textural changes). BBL
treatments at regular intervals appear to promote the maintenance of epidermal structures,
contributing to the preservation of healthy skin and a youthful appearance.
Forever Young BBL has shown to be safe and efficacious in skin types I-V. The benefits of BBL
treatment are the same for patients of many skin types, including maintaining skin tone, clarity,
smoothness, and delaying the development of rhytids and laxity.
Treatments for the purpose of delaying skin aging employ the use of lower fluence and more
conservative parameters than corrective BBL treatments (ie. treatment of vascular conditions and
pigmented lesions). Forever Young BBL uses multiple passes and requires coverage of the entire
cosmetic zone (i.e. the full face). It is recommended to perform 2-4 treatments per year. These
treatments are generally initiated with a separate session after successful application of desired
corrective treatments.
The theory of Selective Photothermolysis explains how wavelength, energy and pulse width in
relation to Thermal Relaxation Time (TRT) all play a role in the destruction of a target and the
preservation of surrounding tissue. In the case of a Forever Young BBL treatment, there may be little
or no visible target due to clearance of pigment and vascular lesions during previous corrective BBL
sessions. In these cases, the goal is to preserve the health of the skin, promote collagen neogenesis
and promote a youthful appearance with BBL energy. The use of multiple passes at a lower fluence
(J/cm2) helps to preserve patient comfort while achieving the desired result.
Skin that is free of visible targets will benefit from the application of multiple passes at a lower
fluence. Corrective spot treatments can be used on any visible targets such as pigmented or
vascular lesions that remain after the completion of two Forever Young BBL passes (see appropriate
corrective BBL protocol).
In cases where patients have completed a series of corrective BBL treatments but have experienced
a recurrence of visible targets, it is recommended they undergo additional corrective treatments prior
to commencing a Forever Young BBL regimen (see applicable BBL protocol).
Filter selection
Refer to Forever Young BBL Treatment Starting Parameters for appropriate filter selection.
Melanin in the skin competes with the target lesions for absorption of the BBL energy. Therefore, a
deeper penetrating filter should be chosen for patients with darker skin types.
Fluence
Refer to Forever Young BBL Treatment Starting Parameters for appropriate fluence selection.
Darker targets absorb more energy and will reach higher temperatures, therefore lower fluences
should be selected for darker skin.
Pulse Width
Refer to Forever Young BBL Treatment Starting Parameters for appropriate pulse width selection.
Darker skin absorbs more light and heats to a higher temperature, therefore pulse width should be
longer for darker skin. A longer pulse width allows the skin to gradually and safely absorb BBL
energy.
Cooling
Refer to Forever Young BBL Treatment Starting Parameters for appropriate temperature selection.
Some epidermal cooling is essential to protect the skin. The amount of cooling required will vary with
skin type and area treated. When treating body tissue, temperature should be colder, as well as
when treating darker skin types.
_____________________________________________________________
If desired, patients may have an anesthetic cream applied 30 minutes prior to the procedure. The
topical anesthetic is removed before commencing treatment. The appropriate starting parameters
(refer to the Forever Young BBL Parameters) are selected and programmed into the system in
Manual mode.
For male patients, the beard area is an important consideration. It is crucial to inform patients that
there may be partial or complete loss of dark beard hair in BBL treated areas. For the first pass on
female patients (and male patients who are willing to risk loss of beard hair) the full sapphire crystal is
used (no Finesse spot adapter should be attached at this time except for areas where the full crystal
cannot be placed flat on the skin).
Appropriate protective eyewear should be worn by both the patient and practitioner
throughout the duration of the treatment.
Technique
Apply thin layer of colorless gel.
Select appropriate settings.
Treat test area to establish safe treatment parameters and desired endpoint. Treat test area to
establish safe treatment parameters. Erythema may be visible and with varying degrees of warmth
may be felt.
Once appropriate settings are selected, complete treatment area.
Treatment is started near the ear (the right side of the face is pictured in this example). A series of
pulses are delivered, with the operator moving the handpiece with up to a 10% overlap over the
previously treated area after each pulse. The first row of pulses moves along the jawline and ends
mid-chin (Figure 1). The next row of pulses begins in front of the ear just above and slightly
overlapping the first row of pulses. Rows of pulses are continued until the entire right cheek
including the right upper lip and right chin have been treated. Turn the handpiece to a horizontal
orientation if necessary to comfortably treat the lip and chin.
Figure 1
For male patients who choose to not have the beard area treated, the 15 x 15 mm spot adapter is
used, and treatment begins in the pre-trichial (non-beard area) of the cheek. Increase the amount
of energy by one or two joules when using the 15 x 15 mm square Finesse spot adapter. The
nonbeard portion of the cheek is treated with two passes, followed by the forehead. In most male
patients, the upper lip or the goatee area is not treated.
Female patients, and male patients who are willing to risk loss of beard hair, will require
approximately 25 pulses with the full BBL crystal for the first pass on the cheek. The second pass
is made perpendicular to the direction of the first pass (Figure 2).
_____________________________________________________________
Two full passes of approximately 50 pulses are delivered to the lower half of the face. This process
is repeated on the opposite cheek. The forehead is treated with the square 15 x 15 mm spot
adapter using the same parameters as the cheek. There is a tendency for greater epidermal
heating to occur because there is less soft tissue on the forehead compared to the cheek. Keeping
the fluence the same as the cheeks when treating the forehead with the smaller adapter will help
avoid superficial burns.
Treatment of the forehead begins at the glabella and moves towards the frontal hairline with up to
a 10% overlap of each adjacent pulse. Pulsing is continued towards the lateral canthus and returns
towards the mid forehead in both directions for two full passes. The forehead requires
approximately 80-100 pulses.
Using the same parameters and the square 15 x 15 mm spot adapter, two passes are delivered in
the under eye area including the lower eyelid skin. Protective eyewear is kept in place at all times
throughout the procedure, but to ensure safety instruct the patient to keep their eyes closed. The
protective goggles are gently pulled superiorly to expose and tighten the lower eyelid skin and
keep the eyelashes away from the treatment field. Pulses are made over the exposed lower eyelid
skin as close to the goggle as possible. Alternatively, the 11 mm round adapter can be used to
easily treat lower eyelid skin safely.
While maintaining the same parameters, the square 15 x 15 mm spot adapter is used for one
additional pass on the upper and lower lip up to the vermilion border. Two full passes are then
made over the nose (Figure 3).
Figure 3
Approximately 200-240 pulses are required to complete a full-face Forever Young BBL procedure. A
spot treatment can be performed over any areas where the patient may need additional treatment
and/or where laxity is evident. The appropriate parameters and spot adapter can be used to perform
one or two additional pulses to correct areas with new or recurring benign hyperpigmentation,
erythema, or telangiectasias (see appropriate corrective BBL protocol).
_____________________________________________________________
See Forever Young BBL parameters for “Body” for treatment off of the face. A similar technique with
multiple passes should be used.
Pulse
Skin Filter Fluence Cooling
Width Spot adapter (mm) Passes Pulses
Type (nm) (j/cm2) (°C)
(ms)
*Note: Spot treatments for new or recurring pigmented and vascular lesions may be applied after 2 full
passes have been administered. Choose spot treatment settings from BBL Application Screen and refer
to the applicable protocol. If significant erythema or other adverse effects are noted in the patient
st
after the 1 pass has been administered, discontinue the treatment and execute appropriate
post care intervention procedures.
_____________________________________________________________
Pulse
Skin Filter Fluence Cooling
Width Spot adapter (mm) Passes Pulses
Type (nm) (j/cm2) (°C)
(ms)
neck &
Full 15 x 45 or 15 x 15 chest ~150
I-II 560 8-9 15 15 2*
square
hands~40
neck &
Full 15 x 45 or 15 x 15 chest ~150
III 560 7-8 20 15 2*
square
hands~40
neck &
590 or Full 15 x 45 or 15 x 15 chest ~150
IV 6-7 30 15 2*
640 square
hands~40
neck &
640 or Full 15 x 45 or 15 x 15 chest ~150
V 5-6 40 10 2*
695 square
hands~40
*Note: Spot treatments for new or recurring pigmented and vascular lesions may be applied after 2 full
passes have been administered. Choose spot treatment settings from BBL Application Screen and refer to
the applicable protocol. If significant erythema or other adverse effects are noted in the patient after
st
the 1 pass has been administered, discontinue the treatment and execute appropriate post care
intervention procedures.
_____________________________________________________________
Pulse Target
Skin Filter Irradiance Cooling Total
Width Spot adapter (mm) Temp
Type (nm) (Watts/cm2) (°C) Energy (J)
(sec) (°C)
Neck
Full 15 x 45 crystal for
40,000-
cheeks and neck
I-II 590ST 10-15 12 30 38-42 50,000
15x15 square for
Cheeks
forehead
30,000
Neck
Full 15 x 45 crystal for
590ST 40,000-
cheeks and neck
III or 10-15 12 30 38-42 50,000
695ST 15x15 square for
Cheeks
forehead
30,000
Neck
Full 15 x 45 crystal for 40,000-
695ST cheeks and neck
IV or 8-15 12 30 38-42 50,000
800ST 15x15 square for Cheeks
forehead
30,000
Post Treatment
Observation – Erythema for several hours post treatment.
Intervention – Cool compresses or ice packs can provide some comfort after treatment. If
blistering occurs, aggressive wound healing measures should be implemented.
If performing a Forever Young BBL treatment in conjunction with other procedures such as Micro
Laser Peel, HALO or ProFractional, perform the BBL treatment first.
Check with manufacturer for guidelines on using injectables in conjunction with Forever Young
BBL treatments.
_____________________________________________________________
Touching the following softkey permits the user to enter the Manual Mode.
TM TM
Note: All filters except 800ST are available for use, however, SkinTyte and Forever Bare BBL
applications are not available.
The manual mode allows the user to bypass the preset parameter screens reference above.
1
2
4 6
8 10
3 5 7
12
14 13 11
1. Application indicator
Application indicator shows which application is being used for treatment.
2. Filter wavelength indicator
Filter wavelength indicator shows which wavelength is being used for the treatment.
3. Fluence indicator
Fluence indicator shows the amount of fluence or energy being delivered per pulse of BBL light.
The fluence is measured in joules per centimeter squared (J/cm2).
Note: The factory default is displayed in red and will turn black as the setting is altered.
4. Fluence adjustment softkeys
Fluence adjustment softkeys allows the user to increase or decrease fluence by 1 J/cm2 by
tapping or holding down the up▲ or down ▼ arrow softkeys.
5. Pulse width indicator
Pulse width indicator shows the length of time the energy is being delivered per pulse of BBL
light. Pulse width is measured in milliseconds (ms).
Note: The factory default is displayed in red and will turn black as the setting is altered.
_____________________________________________________________
_____________________________________________________________
3. Fill with chiller mixture (20% methanol and 80% deionized water) supplied by Sciton.
4. Replace cap.
5. Connect the two lines from one end of the hose assembly to the chiller by simply pushing the disconnect fittings
together as shown. A clicking sound will confirm proper engagement.
6. Remove hose jumper from the other end by depressing the metal tab and gently pulling the hose.
7. Route the hose along the side of the articulated arm, using hose clips to hold the hose in place as shown.
Hose Clips
8. Connect the two lines at this end of the hose to the contact cooling handpiece.
9. Install power cord into the chiller and connect the other end to the wall outlet.
_____________________________________________________________
12. Adjust to desired set temperature by using up or down arrow keys and allow time for system to reach the set
temperature.
13. Proceed with laser treatment once the temperature reaches the desired cooling temperature.
Ensure that the chiller mixture flowing through the contact cooling handpiece is always clear and free
of air bubbles. If you notice contamination in chiller mixture, stop treatment and contact Sciton Service . If you
notice air bubbles in the contact cooling handpiece, stop the treatment and add chiller mixture as described
above before proceeding.
14. Upon completion of laser treatment, turn off power to the chiller.
Note: Replace filter at least once a year if your chiller is installed with a filter. Loosen the hand- screw on the
side of the chiller to remove the cover and access the filter.
_____________________________________________________________
TempAssure is an accessory to the JOULE laser platform when utilizing the ProLipo module. It is used to monitor the
temperature of tissue in close proximity to the ProLipo fiber tip during laser assisted lipolysis treatment. This allows the
physician an objective method to identify endpoints and increase patient safety.
The temperature measured is at the junction of the two thermocouple wires at a point 6 millimeters (1/4 inch)
from the end of the cannula. Since the laser energy is delivered to a zone forward of the fiber tip, if the thermocouple is
not in motion it will not be in the region being heated and the temperature reading will be lower than the elevated
temperature of the treatment zone.
Cannula Handle Optical fiber nut Loosely screw collet and fiber nut
collet into the handle
_____________________________________________________________
_____________________________________________________________
2 mm
8. Tighten the fiber nut to secure the fiber so that it does not slip. Hand tighten only; do not over-tighten.
10. Plug the male thermocouple wire plug into the display receptacle. Push until fully seated.
Note that the plug has different width prongs. The wider prong must be on the side closer to the On/Off button –
as shown below.
_____________________________________________________________
Charging indicator
Illuminates green when charging. Not illuminated
when fully charged.
Changes as the
ALERT temperature
is adjusted
Changes as the
TARGET temperature
is adjusted
Current thermocouple
temperature
Alert
Press to return to the Temperature
graph screen after the
settings are entered
Pause / Resume
Audible Tones
Toggle the tone on or off by pressing the TONE key.
Voice
Toggle the voice On or Off with the VOICE key. When On, the voice reports the temperature every 2.5 seconds.
_____________________________________________________________
13. To display graph, press the GRAPH key. The following screen will appear.
A white line is drawn with points The average temperature over the last ½
th
taken every 1/30 second second is plotted as a colored dot.
ALERT will
sound at this
temperature
TARGET green
image at this
temperature
Current
thermocouple
temperature
Press to go to
settings screen
_____________________________________________________________
This is an informed consent document which has been prepared to help inform you about laser treatment procedures of
skin, risks, and alternative treatments.
It is important that you read this information carefully and completely. Please initial each page, indicating that you have
read the page and sign the consent for the procedure as proposed by your physician.
INTRODUCTION
Lasers have been used by physicians for many years. There are many different methods for the surgical use of lasers.
Laser energy can be used to cut, vaporize, or selectively remove skin and deeper tissues.
Conditions such as wrinkles, sun damaged skin, scars and some types of skin lesions/disorders may be treated with the
laser. Certain surgical procedures may use the laser as a cutting instrument. In some situations, laser treatments may be
performed in combination with other surgical procedures.
Skin treatment programs may be used both before and after laser skin treatments in order to enhance the results.
Alternative Treatment - Alternative forms of treatment include not undergoing the proposed laser skin treatment
procedure. Other forms of skin treatment (chemical peel) or surgical procedures (dermabrasion or excisional surgery) may
be substituted. In certain situations, the laser may offer a specific therapeutic advantage over other forms of treatment.
Alternate laser treatment procedures, in some situations, may not represent a better alternative to other forms of surgery
or skin treatment when indicated. Risks and potential complications are associated with alternate forms of treatment that
involve skin treatments or surgical procedures.
Risks of Laser Treatment of Skin - There are both risks and complications associated with all laser treatment
procedures of the skin. Risks involve both items that specifically relate to the use of laser energy as a form of surgical
therapy and to the specific procedure performed. An individual's choice to undergo a procedure is based on the
comparison of risk to potential benefits. Although the majority of patients do not experience these complications, you
should discuss each of them with your physician to make sure you understand the risks, potential complications and
consequences of laser skin treatment.
Infection - Although infection following laser skin treatment is unusual, bacterial, fungal, and viral infections can occur.
Herpes simplex virus infections around the mouth or other areas of the face can occur following a laser treatment This
applies to both individuals with a past history of Herpes simplex virus infections and individuals with no known history of
Herpes simplex virus infections in the mouth area. Specific medications may be prescribed and taken both prior to and
following the laser treatment procedure in order to suppress an infection from this virus. Should any type of skin infection
occur, additional treatment including antibiotics may be necessary.
Scarring - Although normal healing after the procedure is expected, abnormal scars may occur both in the skin and
deeper tissues. In rare cases, keloid scars may result. Scars may be unattractive and of different color than the
surrounding skin. Additional treatments may be needed to treat scarring.
Burns - Laser energy can produce burns. Adjacent structures including the eyes may be injured or permanently damaged
by the laser beam. Burns are rare yet represent the effect of heat produced within the tissues by laser energy. Additional
treatment may be necessary to treat laser bums.
Color Change - Laser treatments may potentially change the natural color of your skin. Skin redness usually lasts 2
weeks-3 months and occasionally up to 6 months following laser skin treatment. There is the possibility of irregular color
variations within the skin including areas that are both lighter and darker. A line of demarcation between normal skin and
skin treated with lasers can occur.
_____________________________________________________________
Fire - Inflammable agents, surgical drapes and tubing, hair, and clothing may be ignited by laser energy. Laser energy
used in the presence of supplemental oxygen increases the potential hazard of fire. Some anesthetic gases may support
combustion.
Laser Smoke (plume) - Laser smoke is noxious to those who come in contact with it. This smoke may represent a
possible bio-hazard.
Skin Tissue Pathology - Laser energy directed at skin lesions may potentially vaporize the lesion. Laboratory
examination of the tissue specimen may not be possible.
Visible Skin Patterns - Laser treatment procedures may produce visible patterns within the skin. The occurrence of this
is not predictable.
Patient Failure to Follow Through - Patient follow through following a laser skin treatment procedure is important. Post
operative instructions concerning appropriate restriction of activity, use of dressings, and use of sun protection need to be
followed in order to avoid potential complications, increased pain, and unsatisfactory result. Your physician may
recommend that you utilize a long-term skin care program to enhance healing following a laser skin treatment.
Damaged Skin - Skin that has been previously treated with chemical peels or dermabrasion, or damaged by bums,
electrolysis (hair removal treatments), or radiation therapy may heal abnormally or more slowly following treatment by
lasers or other surgical techniques. The occurrence of this is not predictable. Additional treatment may be necessary.
Distortion of Anatomic Features - Laser skin treatments can produce distortion of the appearance of the eyelids, mouth
and other visible anatomic landmarks. The occurrence of this is not predictable. Should this occur, additional treatment
including surgery may be necessary.
Unsatisfactory Result - There is the possibility of an unsatisfactory result from these procedures. Laser procedures may
result in unacceptable visible deformities, skin slough, loss of function, and permanent color changes in the skin. You may
be disappointed with the final result from laser treatments.
Pain - Very infrequently, chronic pain may occur after laser skin treatment procedures.
Allergic Reactions - In rare cases, local allergies to tape, preservatives used in cosmetics or topical preparations have
been reported. Systemic reactions which are more serious may result from drugs used during medical procedures and
prescription medicines. Allergic reactions may require additional treatment.
Lack of Permanent Results - Laser or other treatments may not completely improve or prevent future skin disorders,
lesions, or wrinkles. Additional procedures or surgery may be necessary to further tighten loose skin.
Delayed Healing - It may take longer than anticipated for healing to occur after laser treatments. Slower than normal skin
healing may result in thin, easily injured skin. This is different from the normal redness in skin after a laser treatment.
Unknown Risks - There is the possibility that additional risk factors of laser skin treatments may be discovered.
Surgical Anesthesia - Both local and general anesthesia involve risk. There is the possibility of complications, injury, and
even death from all forms of surgical anesthesia and sedation.
Additional Treatment or Surgery Necessary - There are many variable conditions which influence the long-term result
of laser skin treatments. Even though risks and complications occur infrequently, the risks cited are the ones that are
particularly associated with these procedures. Other complications and risks can occur but are even more uncommon.
Should complications occur, procedures, surgery or other treatments may be necessary. The practice of medicine and
surgery is not an exact science. Although good results are expected, there is no guarantee or warranty expressed or
implied on the results that may be obtained.
FINANCIAL RESPONSIBILITIES - The cost of laser skin treatment involves several charges for the services provided.
This includes fees charged by your doctor, the cost of pre and post-operative skin care medications, surgical supplies,
laser equipment and personnel, laboratory tests, and possible outpatient hospital charges, depending on where the
procedure is performed. It is unlikely that cosmetic surgery costs would be covered by an insurance plan. Even if there is
some insurance coverage, you will be responsible for necessary co-payments, deductibles and charges not covered.
Additional costs may occur should complications develop from the treatment.
Disclaimer: Informed consent documents are used to communicate information about the proposed treatment of a
disease or condition along with disclosure of risks and alternative forms of treatment. The informed consent process
_____________________________________________________________
Informed consent documents are not intended to define or serve as the standard of medical care. Standards of medical
care are determined on the basis of all of the facts involved in an individual case and are subject to change as scientific
knowledge and technology advance and as practice patterns evolve.
It is important that you read the above information carefully and have all of your questions answered before signing the
consent.
1. I hereby authorize Dr.____________________ and such assistants as may be selected, to perform the following
procedure or treatment:
2. I recognize that during the course of the procedure and medical treatment or anesthesia, unforeseen conditions may
necessitate different procedures than those above. I therefore authorize the above physician and assistants, or
designees to perform such other procedures that are in the exercise of his or her professional judgment necessary
and desirable. The authority granted under this paragraph shall include all conditions that require treatment and are
not known to my physician at the time the procedure is begun.
3. I consent to the administration of such anesthetics considered necessary or advisable. I understand that all forms of
anesthesia involve risk and the possibility of complications, injury, and sometimes death.
4. I acknowledge that no guarantee has been given by anyone as to the results that may be obtained.
6. For purposes of advancing medical education, I consent to the admittance of observers to the operating room.
7. I consent to the disposal of any tissue, medical devices or body parts which may be removed.
8. I authorize the release of my Social Security number to appropriate agencies for legal reporting and medical-device
registration, if applicable.
I CONSENT TO THE TREATMENT OR PROCEDURE AND THE ABOVE LISTED ITEMS (1-9). I AM SATISFIED WITH
THE EXPLANATION.
_____________________________________________________________
Richards-Merhag Chart
Anatomical Telogen Anagen Telogen Anagen Density of Depth of
Region (%) (%) (duration) (duration) Hair Follicle
(hair/cm2) (mm)
Trunk NA NA - - 70 2 - 4.5
Breast 70 30 - - 65 3 - 4.5
_____________________________________________________________
Warning:
The JOULE system needs special precautions regarding EMC and needs to be installed and put into service
according to the EMC information provided in this manual.
External chiller and the temperature measurement accessory have not been assessed and may result in
increased EMISSIONS or decreased IMMUNITY of the system.
The use of accessories, transducers and cables other than those specified by Sciton, may result in increased
EMISSIONS or decreased IMMUNITY of the system.
The JOULE should not be used adjacent to or stacked with other equipment and that if adjacent or stacked use is
necessary, the JOULE should be observed to verify normal operation in the configuration in which it will be used.
_____________________________________________________________
_____________________________________________________________
a
Field strengths from fixed transmitters, such as base stations or radio (cellular/cordless) telephones and land
mobile radios, amateur radio, AM and FM radio broadcast and TV broadcast cannot be predicted theoretically with
accuracy. To assess the electromagnetic environment due to fixed RF transmitters, an electromagnetic site survey
should be considered. It the measured field strength in the location in which the JOULE is used exceeds the
applicable RF compliance level above, the JOULE should be observed to verify normal operation. If abnormal
performance is observed, additional measures may be necessary, such as reorienting or relocating the JOULE.
b
Over the frequency range 150 kHz to 80 MHz, field strengths should be less than 3 V/m.
_____________________________________________________________