USRE47219E1 - System for performing remote ischemic conditioning - Google Patents
System for performing remote ischemic conditioning Download PDFInfo
- Publication number
- USRE47219E1 USRE47219E1 US15/783,628 US201715783628A USRE47219E US RE47219 E1 USRE47219 E1 US RE47219E1 US 201715783628 A US201715783628 A US 201715783628A US RE47219 E USRE47219 E US RE47219E
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- fluid communication
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Definitions
- This invention relates generally to systems for performing remote ischemic conditioning, and more particularly, to systems for performing remote ischemic conditioning incorporating a removable controller.
- Ischemic diseases are significant causes of mortality in industrialized countries. It is well established that tissue damage results from ischemia (insufficient blood flow to a tissue) followed by reperfusion (reflow of blood to the tissue). Ischemia and reperfusion cause disturbance of microcirculation with ensuing tissue damage and organ dysfunction. Organs such as the kidney, heart, liver, pancreas, lung, brain and intestine are known to sustain damage following ischemia and reperfusion.
- ischemic conditioning In ischemic conditioning (IC), a tissue or organ or region of a subject's body is deliberately subjected to brief ischemic episodes, followed by brief reperfusion episodes. IC has been found to render the tissue, organ or region resistant to injury during subsequent ischemic episodes. The phenomenon of ischemic conditioning has been demonstrated in most mammalian tissues. IC is now recognized as one of the most potent innate protective mechanisms against ischemia-reperfusion (I-R) injury.
- I-R ischemia-reperfusion
- Remote ischemic conditioning refers to the deliberate induction of transient ischemia in a subject at a region remote from at least some of the tissue to be protected. Often, RIC includes inducing transient ischemia in a subject's limb to protect organs remote from the limb, such as the myocardium. Myocardial protection has been demonstrated by a variety of remote stimuli, including renal ischemia, liver ischemia, mesenteric artery ischemia, and skeletal muscle hind limb ischemia.
- RIC in the broadest sense, involves deliberate induction of an ischemic period followed by a reperfusion period.
- the ischemic period may involve complete cessation of blood flow (blood flow occlusion).
- Such ischemic periods may be induced by applying super-systolic pressures on a region of the body, such as for example a limb.
- ischemic periods may also be induced by applying a less than systolic pressure.
- RIC may be performed prior to (pre-), during (per-) and/or following (post-) an ischemic injury or other injury which benefits from RIC.
- RIC has shown benefit in reducing or preventing damage resulting from, myocardial infarction and trauma, inter alia.
- a device for performing RIC includes an inflatable cuff configured to encircle a limb of a subject and a controller removably attached to the cuff.
- the controller includes a pump; a manifold in fluid communication with the pump; an outlet in fluid communication with the manifold and in removable fluid communication with the inflatable cuff; a pressure sensor; and a control circuit configured to implement a RIC treatment protocol.
- a cuff assembly may be adapted to encircle a limb of a subject.
- the cuff assembly includes an inner layer, an outer layer, and a bladder disposed between the inner layer and the outer layer.
- the outer layer includes two flexible foam sections spaced apart in a longitudinal direction of the cuff assembly.
- the outer layer also includes an intermediate section disposed between the two flexible foam sections. The intermediate section may have a greater rigidity than the two flexible foam sections.
- a device in a further aspect, includes an inflatable cuff and a controller attachment section.
- the inflatable cuff may be configured to encircle a limb of a subject.
- the cuff has an axial direction substantially parallel to an axis of the limb when the cuff is in the fitted state.
- the controller attachment section may be operatively attached to the cuff by at least one attachment joint oriented substantially parallel to the axial direction of the cuff.
- the controller attachment section may include a connector adapted for removable attachment of a controller.
- the controller attachment section may provide fluid communication between the controller and cuff in a location removed from the connector when the controller is in an attached state.
- FIG. 1 is a schematic perspective view of an assembled system for remote ischemic conditioning with a removable controller
- FIG. 2 is a schematic perspective view of the system for remote ischemic conditioning depicted in FIG. 1 with the controller removed;
- FIG. 3 is a cross sectional view of the system for remote ischemic conditioning depicted in FIG. 1 taken along the line 3 - 3 in FIG. 1 ;
- FIG. 4 is an exploded schematic perspective view of the cuff of the system depicted in FIG. 1 ;
- FIG. 5 is a schematic top perspective view of the controller attachment section of the system depicted in FIG. 1 ;
- FIG. 6 is a schematic bottom perspective view of the controller attachment section of the system depicted in FIG. 1 ;
- FIG. 7 is a schematic bottom perspective view of the controller of the system depicted in FIG. 1 ;
- FIG. 8 is a schematic top perspective view of the controller of the system depicted in FIG. 1 ;
- FIG. 9 is a cross sectional view of the controller and controller attachment section while coupled to the system depicted in FIG. 1 ;
- FIG. 9A is a detailed view of FIG. 9 corresponding to box A of FIG. 9 ;
- FIG. 10 is a schematic perspective view of the controller of the system depicted in FIG. 1 with the cover removed;
- FIG. 11 is a schematic perspective view of the controller of the system depicted in FIG. 1 with the cover and PCB removed;
- FIG. 12 is a schematic perspective view of a charging cradle to be used with the controller.
- FIG. 13 is a schematic perspective view of the charging cradle of FIG. 12 with an optional wall mount.
- a system for performing RIC includes an inflatable cuff, a controller attachment section joined to the cuff, and a controller selectively removable from the controller attachment section.
- the controller may control the inflation and deflation of the inflatable cuff.
- the controller may include a control circuit programmed to implement an RIC protocol.
- the cuff may be soft, rigid, and made from thermoformable materials.
- FIGS. 1 and 2 illustrate one embodiment of a system 2 for RIC.
- System 2 may include an inflatable cuff 4 , a controller attachment section 6 , and a controller 8 .
- the controller 8 is selectively removable from system 2 .
- the controller attachment section 6 may include an interlocking retaining tab 10 adapted to provide removable attachment of the controller.
- the controller attachment section may also include a conduit 12 that provides, sealed, fluid communication between the controller 8 and inflatable cuff 6 .
- cuff 4 is axially rigid while being soft or non-irritating to the skin.
- cuff 4 may include an inner layer 16 , a layer 18 , and a selectively inflatable bladder 20 disposed between layers 16 and 18 , as depicted in FIG. 4 .
- Cuff 4 may be adapted to encircle a limb of an individual.
- Axis 15 represents the approximate center of a circular configuration formed when cuff 4 is wrapped about a patient's limb.
- An axial direction of cuff 4 corresponds to the approximate direction of axis 15 .
- Cuff 4 has a longitudinal direction extending down the length of cuff 4 which is substantially perpendicular to the above defined axial direction.
- Cuff 4 may also be intended to be a disposable item for use with removable controller 8 .
- Inner layer 16 typically is positioned adjacent to, and often in contact with, the skin of an individual wearing system 2 . Since inner layer 16 may be in contact with skin, the inner layer may be made from a soft and/or non-irritating material.
- the inner layer 16 may be made from a knit, woven, or felted cloth. The cloth may include either natural or synthetic materials. Possible cloths include brushed polyester, brushed nylon, and/or other suitable materials as would be apparent to one of skill in the art. Alternatively, inner layer 16 may be made from a foam. In some embodiments, inner layer 16 may be further adapted to provide moisture absorption, wicking, and/or breathability to cuff 4 .
- cuff 4 may include two sections 22 spaced apart in a longitudinal direction and an intermediate section 24 disposed between the sections 22 .
- Intermediate section 24 may be constructed to have a greater rigidity than sections 22 .
- the increased rigidity of the intermediate section 24 may be created either by an inherent material property difference, a difference in the physical construction (e.g. a thicker section and/or inclusion of reinforcing features), or both.
- the intermediate section 24 may include a substantially flat outer surface 25 for attachment to the controller attachment section 6 .
- Intermediate section 24 may also include an inner surface 26 which is curved in the longitudinal direction of the cuff 4 .
- the curved inner surface 26 may be constructed so as to generally conform to the curvature of a limb.
- the size and curvature of the cuff 4 may be suited for a variety of sizes and ages of patients ranging from neonates to obese adults.
- the cuff 4 may also be sized for either attachment to an arm or a leg.
- the intermediate section 24 may be constructed from thermosetting plastics, thermoforming plastics, and/or foamed materials. Sections 22 and the intermediate section 24 may be integrally formed with one another, or they may be formed separately and subsequently joined using any appropriate method including, but not limited to, a sewn seam, ultrasonic welds, adhesives, rivets, clamping structures, and/or mechanically interlocking features. Section 22 may be formed of a foam material or any other suitably flexible yet strong material.
- cuff 4 may also include a plurality of reinforcing structures 28 substantially aligned in the axial direction of the cuff assembly.
- Reinforcing structures 28 typically may be formed in outer layer 18 of sections 22 .
- Reinforcing structures 28 provide axial rigidity to the cuff 4 .
- the increased axial rigidity provided by reinforcing structures 28 helps to distribute the pressure applied by cuff 4 in the axial direction to provide a substantially uniform pressure across the axial width of the cuff 4 .
- Reinforcing structures 28 may also help to prevent kinks in cuff 4 when it is placed around the arm or leg of an individual.
- Reinforcing structures 28 may be spaced apart in a longitudinal direction to permit the cuff 4 to easily bend around an encircled limb while still providing increased axial rigidity. Reinforcing structures 28 may be curved or straight in shape in the axial direction. In some embodiments, the reinforcing structures 28 may be integrally formed with the foam in sections 22 such as by the application of heat and/or pressure (e.g. thermoforming) to selectively melt and/or compress portions of the foam in sections 22 . The uncompressed and/or unmelted portions of foam in sections 22 form the raised reinforcing structures 28 . Alternatively, reinforcing structures 28 may be separately formed and subsequently joined to sections 22 .
- Layer 18 may also include a cloth layer 19 applied to an exterior surface.
- Cloth layer 19 may be formed of a low stretch or non-stretch cloth. The low stretch or non-stretch properties may be an inherent property of the cloth selected.
- cloth layer 19 may be a made from thermoformable materials and may be laminated to the exterior surface of layer 18 . The lamination process may alter the thermoformable fabric to be a low stretch or non-stretch material.
- the cloth may be applied to and laminated with layer 18 in a flat layout prior to forming reinforcing structures 28 . Reinforcing structures 28 may subsequently be thermoformed to a final desired shape.
- the resulting sections 22 may be soft and have low stretch or non-stretch properties.
- sections 22 may be thermoformable enabling subsequent processing steps.
- Selectively inflatable bladder 20 may be disposed between inner layer 16 and layer 18 .
- Bladder 20 may have a valve 30 arranged and adapted to provide a fluid inlet to the interior of bladder 20 .
- Valve 30 extends through a hole 32 in the intermediate section 24 of cuff 4 .
- Valve 30 may be placed in sealed fluid communication with a corresponding structure 33 on controller attachment section 6 which may also be in sealed fluid communication with an outlet 48 of controller 8 .
- valve 30 When connected to outlet 48 of controller 8 through structure 33 of the controller attachment section 6 , valve 30 may provide pressurized gas such as air to bladder 20 .
- bladder 20 may be a component separate from layers 16 and 18 .
- Bladder 20 may be formed such as by bonding two separate sheets of thermoplastic polyurethane together.
- bladder 20 may be formed from air impermeable layers incorporated into layers 16 and 18 of cuff 4 . Layers of bladder 20 may be bonded together in an air tight manner using any number of methods including adhesives, ultrasonic welding, beads of material around the edges, and/or other appropriate methods as would be apparent to one of skill in the art. Bladder 20 may also be formed as a unitary structure without separate layers.
- Layers 16 , 18 , 19 , and bladder 20 of cuff 4 may be held together at their edges in any suitable fashion, such as by a binding material 36 wrapped around the edge of cuff 4 and sewn to cuff 4 , as shown in FIG. 4 .
- cuff 4 may be held together using adhesives, rivets, ultrasonic welds, or other appropriate methods as would be apparent to one of skill in the art.
- non-slip interface it may be desirable to provide a non-slip interface to prevent cuff 4 from moving on the limb of a subject, since system 2 may be worn for protracted periods of time.
- at least one non-slip structure 34 may be disposed on the face of inner layer 16 .
- the non-slip structure 34 may be printed, glued, sewn, applied as a bead of material using a guided tool, or by hand.
- the non-slip structure 34 may include, but is not limited to, one or more strips of silicone.
- the cuff 4 may also include fasteners to hold the cuff on a limb of a subject and to adjust the circumferential size of the cuff 4 when in the fitted state.
- fasteners include, but are not limited to, hook and loop fasteners, latches, ratchet mechanisms, clasps, snaps, buckles, and other appropriate structures as would be apparent to one of skill in the art.
- the fastener may be a hook and loop fastener including a plurality of adjacent unconnected hook sections 38 a disposed on layer 18 or 19 and loop sections 38 b disposed on inner layer 16 . Hook sections 38 a may extend in the axial direction of the cuff 4 .
- the width of each hook section 38 a, with respect to the longitudinal direction of the cuff, may be selected to provide a flexible cuff able to wrap around different sized limbs.
- controller attachment section 6 of FIG. 1 is shown in more detail in FIGS. 3, 5 and 6 .
- controller attachment section 6 may include an upper surface 40 for supporting controller 8 in the attached state, a lower surface 44 , and an upstanding wall 42 surrounding surface 40 .
- a raised portion 43 of upstanding wall 42 may be located adjacent to and block a power inlet 52 of controller 8 in the attached state. By blocking access to power inlet 52 in the attached state, raised portion 43 may prevent use of the device while controller 8 is connected to an external power source.
- the controller attachment section 6 may also include a connector, such as retaining tab 10 , arranged to provide removable attachment of controller 8 .
- tab 10 is mounted at one end to surface 40 and includes a projecting edge 41 spaced from surface 40 that faces outwardly towards wall 42 .
- Bosses 45 are disposed on wall 42 on the opposite side of section 6 from tab 10 .
- controller 8 When controller 8 is attached to attachment section 6 , the upper portion of tab 10 is pushed inwardly away from wall 42 so that it passes through slot 49 that is disposed between the body of controller 8 and an outer band 51 , as shown in FIG. 7 .
- bosses 45 extend into recesses 53 of controller 8 , as shown in FIG. 8 .
- Tab 10 has sufficient resilience that when snapped into place, this resilience creates an outward bias on tab 10 that causes edge 41 to overlie the upper edge of band 51 .
- the upper portion of tab 10 is again pushed inwardly against its bias toward controller 8 until edge 41 overlies slot 49 and is clear of band 51 at which time controller 8 may be pulled out of attachment section 6 at the end closest to tab 10 .
- lower surface 44 and/or bottom edge 46 of controller attachment section 6 may be disposed on and substantially conform to the shape of an outer surface of cuff 4 .
- bottom surface 44 and/or bottom edge 46 of the controller attachment section 6 may be disposed on and substantially conform to the shape of outer surface 25 of intermediate section 24 of cuff 4 shown in FIG. 4 .
- the controller attachment section 6 may be joined to outer surface 25 of intermediate section 24 of inflatable cuff 4 along lower surface 44 by at least one and typically two attachment joints 14 .
- the attachment joint(s) 14 may be oriented substantially parallel to axis 15 of the cuff.
- the attachment joint 14 may be formed using any appropriate method including, but not limited to, a sewn seam, an ultrasonic weld, an adhesive, and/or rivets. When two or more attachment joints 14 are included, the joints 14 may be spaced apart in the longitudinal direction to allow the cuff 4 to bend and conform to the shape of different sized limbs.
- controller attachment section 6 may provide fluid communication between the controller 8 and bladder 20 of cuff 4 via structure 33 .
- Structure 33 may include a conduit 12 which is provided in a location spaced from retaining tab 10 , when the controller 8 is in an attached state.
- Conduit 12 fluidly couples controller 8 to valve 30 of bladder 20 .
- Conduit 12 may include a female section 12 a that is constructed and arranged to mate with an outlet 48 of controller 8 and a male section 12 b that is constructed and arranged to mate with valve 30 of bladder 20 .
- Outlet 48 may include a fluid conduit 58 . While a male and female connection have been described, the male and female portions could be reversed or even replaced with other comparable fluid connections, such as a tube or the like.
- a seal such as O-ring 60
- the O-ring 60 may create a gland seal between female section 12 a and outlet 48 .
- a compression seal with O-ring 60 may be used.
- a retaining structure 61 may be included in structure 33 to retain O-ring 60 . Retaining structure 61 may be joined to structure 33 using any appropriate method including, but not limited to, press fitting, ultrasonic welding, and/or adhesives.
- controller 8 has a front cover 50 , which may include controls and displays, and a power inlet 52 .
- Guide structures 54 may be included in controller 8 for alignment and/or engagement with a charging mechanism
- Controller 8 may include a pump 62 in fluid communication with a manifold 64 .
- Manifold 64 is in fluid communication with relief valve 68 and outlet 48 .
- Controller 8 may also include a printed circuit board (PCB) 66 which may include a control circuit and memory.
- PCB printed circuit board
- the controller 8 may also include a pressure sensor associated with the pressurized components of the system and the control circuit.
- the pressure sensor (not shown) may be incorporated into pump 62 and/or placed in pressure sensing communication with manifold 64 .
- the pressure sensor may communicate with the control circuit of PCB 66 .
- the control circuit may be programmed to implement an RIC treatment protocol.
- the controller may also determine blood pressure during, or as part of, an RIC treatment protocol.
- batteries 70 may be arranged, typically in series, to provide a higher operating voltage.
- batteries 70 may be in electrical communication with a transformer adapted to provide a higher operating voltage.
- the operating voltage may be approximately 5 to 6 VDC. In other embodiments, the operating voltage may be approximately 12 VDC or any other appropriate voltage.
- PCB 66 may be connected to the other controller components through plug connector 72 .
- the control circuit of PCB 66 may be programmed with certain error conditions which may cause the procedure to be aborted or which may cause an indication of the error to appear on a display or which can be used in other known ways.
- error conditions may include, but are not limited to: the cuff is not pressurized within a predefined period, such as 20 seconds, 30 seconds, 40 seconds, 50 seconds, or one minute; there is no communication between pump 62 and PCB 66 upon start up; there is no communication between pump 62 and PCB 66 for more than a predefined period, such as two, three.
- pressure in cuff 4 is not near zero gage pressure within a predefined period, such as 20 seconds, 30 seconds, 40 seconds, 50 seconds, or one minute after the end of an inflation cycle; pressure in cuff 4 is above a predetermined pressure such as 200, 220, 240 or 260 mmHg for longer than a predefined period, such as 5, 10, 20, or 30 seconds; and the pump 62 CPU does not wake up after a command is sent to it by the control circuit.
- the error condition may be cleared and/or the system may be reset such as by pressing a stop button 76 on the face of controller 8 .
- controller 8 may be attached to controller attachment section 6 to place controller outlet 48 into fluid communication with cuff 4 . Pressurized gas may then be pumped through controller outlet 48 to inflate the cuff 4 .
- the cuff pressure may be controlled by selectively opening valve 68 in response to a command from the control circuitry of PCB 66 .
- valve 68 may include a pressure safety relief feature that opens valve 68 in response to an over pressure event during an RIC treatment.
- valve 68 opens when the pressure in cuff 4 exceeds 260 mmHg.
- Valve 68 may open in response to either an error command from the control circuitry of PCB 66 , or the valve 68 may include an automatically actuated mechanical system.
- Controller 8 may also include a slow continuous relief valve. Such a valve would continuously release gas from inflated bladder 20 at a selected rate lower than the rated flow rate of the pump 62 .
- the slow continuous release of gas from bladder 20 could be used to deflate bladder 20 in case of a mechanism failure.
- control circuit of PCB 66 may be programmable by a health professional and/or an end user according to a prescribed treatment protocol. Alternatively, the control circuit may only be programmed at the factory and may not be altered afterwards by the end user.
- the control circuitry may also include non-volatile memory for the logging and storage of treatment history. A health care professional may be able to access this memory to determine the treatment history of a patient and determine compliance with a prescribed treatment regime.
- the controller may send this information via wireless, or hard wired, communication to a separate receiver for patient records, monitoring, or call center purposes.
- controller 8 may include a start button 74 and stop button 76 .
- Controller 8 may also include a hard wired and/or emergency stop button and/or a quick release valve (not shown). In other embodiments, other controls may be included to allow expanded control of an RIC treatment.
- controller 8 may include displays related to the current cycle, the number of cycles left in a treatment, whether the treatment is completed, error signals, charge of the system, and other relevant information.
- controller 8 may include a cycle time display 78 .
- Cycle time display 78 may indicate the remaining portion of the inflation/deflation cycle by using illuminated indicators 78 a arranged in a circular pattern corresponding to a full inflation/deflation cycle.
- Each indicator 78 a of cycle time display 78 may correspond to a set fraction of the inflation/deflation cycle. When all of the indicators 78 a of cycle time display 78 are illuminated, the inflation/deflation cycle is complete.
- the indicators 78 a of cycle time display 78 may start a cycle fully illuminated and sequentially turn off as the cycle proceeds. When each indicator 78 a of cycle time display 78 is dark, the particular inflation/deflation cycle is complete. While a circular display has been disclosed, cycle time display 78 could also be arranged in other linear, or non-linear, shapes corresponding to a full cycle. Controller 8 may also include a current cycle display 80 , or a digital numeric display, indicating whether the current cycle is the first, second, third, or other cycle.
- a procedure complete indicator 82 may be illuminated with a solid color or it may blink when the RIC treatment is complete to indicate the end of the procedure.
- An error display 84 may indicate when an error has occurred by blinking or being fully illuminated.
- error display 84 may blink in a preset pattern or display a particular color to indicate which error has occurred.
- a battery charge indicator 86 may indicate the approximate charge remaining in the batteries 70 , and may also signal that that the remaining charge is only sufficient for one cycle by blinking.
- the above described system may be used for implementing an RIC treatment.
- the treatment includes placing cuff 4 on a limb of a user and attaching controller 8 to controller attachment section 6 on cuff 4 .
- a user may then press start button 74 to initiate the treatment.
- the control circuitry of PCB 66 monitors the pressure sensor and turns pump 62 on to inflate the cuff 4 .
- the pressure is then increased to a desired pressure, such as a blood flow occlusion pressure.
- the control circuitry of PCB 66 maintains the cuff pressure between preselected pressure limits such as 200 mmHg to 210 mmHg.
- the control circuitry of PCB 66 may first determine a systolic blood pressure.
- the control circuitry of PCB 66 may subsequently initiate the RIC treatment protocol with a desired pressure such as a pressure greater than the measured systolic blood pressure. Regardless of the specific pressure used, the pressure may be maintained for a selected ischemic duration. Ischemic durations may last on the order of seconds or minutes. After completing the ischemic duration, the controller may activate valve 68 to deflate cuff 4 and initiate the reperfusion duration. Reperfusion durations generally last for at least a minute, although shorter reperfusion durations may be used. After completion of the reperfusion duration another RIC cycle may be conducted. An RIC treatment may include a single cycle or multiple cycles.
- an RIC treatment may include four cycles with ischemic durations of approximately 5 minutes, and reperfusion durations of approximately 5 minutes. At the end of the last cycle the cuff 4 may deflate within 30 seconds and the controller 8 may confirm a near zero gage pressure prior to shutting down.
- controller 8 may be charged using a charging cradle 88 , as shown in FIG. 12 .
- Charging cradle 88 may include a power connector 90 and mating guide structures 92 .
- mating guide structures 92 on the charging cradle mate with guide structures 54 on the controller.
- Mating guide structures 92 act as alignment features.
- mating guide structures 92 may be actuated when controller 8 is inserted into the charging cradle 88 to turn the power on and off to power connector 90 .
- Charging cradle 88 may also include a raised area 94 to prevent insertion of the controller while controller 8 is connected to cuff 4 or a patient.
- charging cradle 88 may optionally connect with a wall mount portion 96 as shown in FIG. 13 .
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Abstract
Description
Claims (40)
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US15/783,628 USRE47219E1 (en) | 2011-04-15 | 2017-10-13 | System for performing remote ischemic conditioning |
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US13/088,243 US8764789B2 (en) | 2011-04-15 | 2011-04-15 | System for performing remote ischemic conditioning |
US14/302,624 US9205019B2 (en) | 2011-04-15 | 2014-06-12 | System for performing remote ischemic conditioning |
US15/783,628 USRE47219E1 (en) | 2011-04-15 | 2017-10-13 | System for performing remote ischemic conditioning |
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US29/429,677 Active USD709197S1 (en) | 2011-04-15 | 2012-08-15 | Combined controller and cuff for remote ischemic conditioning |
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US29/429,677 Active USD709197S1 (en) | 2011-04-15 | 2012-08-15 | Combined controller and cuff for remote ischemic conditioning |
US14/302,624 Ceased US9205019B2 (en) | 2011-04-15 | 2014-06-12 | System for performing remote ischemic conditioning |
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USD709048S1 (en) | 2014-07-15 |
WO2012142360A3 (en) | 2013-01-31 |
EP2696781A2 (en) | 2014-02-19 |
CN106420300A (en) | 2017-02-22 |
CN103796598B (en) | 2016-08-17 |
CA2870434A1 (en) | 2012-10-18 |
TW201247192A (en) | 2012-12-01 |
TWI612956B (en) | 2018-02-01 |
TW201811289A (en) | 2018-04-01 |
WO2012142360A2 (en) | 2012-10-18 |
US8764789B2 (en) | 2014-07-01 |
CN103796598A (en) | 2014-05-14 |
AU2012242724A1 (en) | 2013-05-02 |
US9205019B2 (en) | 2015-12-08 |
US20140296756A1 (en) | 2014-10-02 |
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US20120265240A1 (en) | 2012-10-18 |
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