CA2127695A1 - Heated balloon medical apparatus - Google Patents

Abstract

An apparatus (75) for treating a tissue lining of a mammalian body cavity, particularly a uterine endometrium comprising a pump (38) and a distendable bladder (10) connected to a catheter. The apparatus is introduced into the body cavity and the bladder is distended by introducing a non-toxic fluid under pressure. The fluid is heated by a heating element (20). A pump (38) circulates the fluid within the distendable bladder to help keep the fluid at a uniform temperature.

Description

WO 94/lOD48 . ~ /US93/10838 , _ HEATBD BAI.IIOON MEDICAI~ APPAR~TUS

FIE~D OF THE INVENTION --This invention relates to an apparatus for treating the tissue lining of a huma~i body cavity, particularly the endometrium of the uterus. More specifically, the apparatus of the present invention may be a self-contained closed-fluid system which can minimize the volume of fluid introduced into the area being treated in the event of a distendable bladder rupture or other failure. A heating means and a pump means may be incorporated in a handle portion of the apparatus so as to provide an improved device for treatment of tissues lining a body cavity without many of the disadvantages and dangerous f~atures of known techniques.

BACKGROUND OF T~ INVENTION
Thie following terms as used herein have the meaning given below:
~ Cauterization~ means the application of heat to tissue in an amount sufficient to destroy the tissue.
~ Necrosis n means the death of cells in tissue.
~ Endometrium~ is that portion of the inner lining of the uterus to which an embryo normally attaches and excludes the portions of~the uterine inner lining fonming io the cervix, to which the embryo usually does not attach.

Apparatus and methods for cauterization of the ..
endometrium of a mammalian uterus, useful in sterilization procedures and cancer treatments, are well known. Thermal and cryogenic treatments ha~e been ~; 15 utilized in such cauterization techniquies and typically involve either the direct or ~ndirect application of heat or cold to the tissue to be treated.
For example, a laser hysteroscope has been used to cauterize the endometrial layer of the uterus. This laser treatment suffers from several disadvantages. It requires the application of a large amount of thermal energy to a W0 4~ PCT/US93/10i#

vely small area of ti~sue to produce intense heat even though such a large amount of heat may not be necessary to effectively cauterize the tissue. Further, this laser treatment requires the physician to continually reposition the hysteroscope within the uterus in order to treat the entire endometrium. Such internal manipulation of a laser hysteroscope within the uterus of a patient is both difficult, re~uiring a significant level of skill to perform, and potentially da~gerous.
Accidental puncture of the uterine or tissue wall may result from manipulation of the laser hy8teroscope within the uterus or body cavity, and tissue layers beneath the endometrium may be burned if the laser's beam is left focused on one area of tissue for too long a period of time.
A variety of alternatives to laser treatment in cauterizing the uterine endometrium are known. In U.S.
Patent No. 3,924,628, Droegemueller et al. disclose a method and apparatu8 for necro8ing tissue cells that utilize8 an extendable bladder which is inserted into the uterus and filled with a circulating fluid or gas at cryogenic temperatures (referring to temperatures 8ufficiently low to cause cell necrosis). The bladder disclosed by Droegemueller et al. i8 maintained in substantially continuous contact with the inner surface ^~ ' of the uterine lining and i8 8aid to achieve necro~is of sub8tantially all of the uterine endometrium in a single treatment. Droegemueller et al. di8close the use of liquid nitrogen that vaporizes prior to introduction into thè bladder, thereby pressurizing the bladder to a level which ensùres adequate contact with the uterus. Other fluid8 disclosed by Droegemueller et al. as useful in their method include refrigerants such as freon.
Droegemueller et al. '8 method and apparatus suffers from the disadvantage of employing cryogenic fluids which could prove toxic to a patient in the event of bladder rupture. Moreover, Droegemueller et al.'s apparatus does wo 94/l~L8 ~ 6.~ S PCT/US93/108~

not allow precise regulation of the pres~ure used to inflate the bladder. Another disadYantage of Droegemueller et al.~s technique is that cryogenic necrosis of the endometrium occurs at extremely '~ow temperatures that pose a threat to tissue layers adjacent to the uterine endometrium. Droegemueller et al. and similar cryogenic techniques also require the use of expen3ive equipment ~uch as compressors and insulated vessels a~sociated with the storage and handling of refrigerants. Moreover, Droegemueller et al.'s technique may require warming of the bladder in order to remove it from the body and minimize tearing of the surrounding.
tissue which has adhered to the bladder during the 'freezing process.
; 15 In U.S. Patent No. 2,734,508, Kozinski discloses a therapeutic apparatus for applying dry heat to body cavities comprising an applicator that is introduced in the body cavity while deflated and'which is subsequently inflated and heated by means of circulating hot air.
; 20 Kozinski does not disclose an applicator which confonms to the shape of a body cavity. Further, given the lower - heat transfer coefficients of gases as compared with liquid, trea~ment with ~ozinski's apparatus should involve a long~period of time in order to achieve necrosis, thereby~exposing the patient to additional d1scamfort and risk.~Mo # over, Kozinski's apparatu~ does not~provide for measurement and regulatlon of internal - pre~sures and temperatures in the applicator.
- - U.S. Patent No. 2,077,453, issued to Albright, discloses a therapeutic appliance comprising a relatively long tubular applicator which is shaped and fo~med - generally to the passage into which it i~ to be inserted and which has relatively thin elastic rubber walls that tr~nsfer heat and which di~tend to fit irregularities of 3S the treated areas upon application of internal pressure.
Albright also disclo~es that fluids such as heated water could be utilized as a heating means in his applicator.

. ~ .

WO~4/10948 ~` ~ ;`~ '`~"-~.` `` '`~ PCr/USg3/10838 The applicator of Albright, like that of Kozinski, however, suffers from the disadvantage that the distension of its walls to conform to the irregularities of the endometrium i9 limited as Albright providès an integral rubber web which serves to prevent undue distension of the applicator. Moreover, Albright requires that ~he fluid be circulated throughout the apparatus.
Albright also does not provide an apparatus that allows regulation of temperature and pressure of the fluid or other bladder inflation means.
U.S. Patent No. 3,369,549, issued to Armao, discloses a therapeutic device for applying heat or cold to body cavities comprising a capsule probe containing a heat exchanger and a flexible bladder that can be inflated to conform to a bod~ cavity. Armao does not, however, disclose a control means for regulating the temperature and pressure of the flexible applicator, nor does he disclose cauterizing tissue in the cavity being treated.
U.S. Patent No. 4,160,455 to ~aw di~closes a heater for heating fluid within a body cavity of an animal, e.g., for heating tumors by irrigation, comprises a container having inlet and outlet ports through which ~}uid in the cavity is passed by an external pump, and a 25 ~heating element in the container to heat at least some of the~fluid^that pas~es through the container. Pumping can be achieved by a~fluid filled pipe coupled to the coutainer, either directly by or by way of a diaphragm, and to a bellows or like arrangement for cyclicly varying 1~ ~ 30 the pressure of the fluid in the pipe and container.
I ~ ~ A common problem assoclated w$th some of the above-described prior art device~ is that a large volume of - heated fluid, i.e., greater than about 30 cc i8 circulated through the system. In the event of balloon rupture, this volume of pressurized fluid would leave the confines of the balloon with possible adverse affects on the patient. Another problem associated with some of , ~: -W094/1~8 ~ PCT/US93/108~

these prior art devices is the difficulty of maintainingsterility of the fluid when the fluid i8 heated in a remote heating unit.
Other patents that disclose the use of ther^mal treatment of the interior lining of a body cavity include U.S. Patent Nos. 2,192,768; 2,466,042; 2,777,445;
3,369,549, and 4,949,718.

OBJECTS AND SUMMARY OF THE INVENTION
It is an object of the present invention to provide a safe and efficacious method for cauterizing the tissue ~ lining of a body cavity, particularly the endometrium of i a uterus.
It is another object of the present invention to ~ 15 provide a relatively inexpensive and easy to replace t~'~ applicator heated by a nontoxic fluid that can be used to treat the tissue lining of a body cavity and which is controlled by means external to the applicator.
'It is another ob~ect of the pre~ent invention to "~ 20 provide-an apparatus for heating a fluid while it is in a ~ distendable bladder within the uterus and for introducing ,' ~ the fluid under pre~t~ure into the bladder 80 as to assure substantially uniform contact of the bladder with the t1ssue lining of the body cavity being treated.
` 25 ~ It 18 stll1~another ob~ect of the present invention to provide an apparatus~for regulating the,temperature of the fluid,in the-~dlstendable bladder wbile the bladder i8 -~ ` within the tissue lining of the body cavity being ^, treated.
30~, , -- It is sti}l another ob~ect of the present invention to provide an apparatus for maintaining a substantially - uniform temperature of the fluid in the distendable ' - bladder while the bladder is within the tissue lining of ~ .
,~ the body cavity being treated.
,,~, 35 It is still another object of the present invention ,',~;~ to provide an apparatus which limits the amount of fluid that would be introduced into a body cavity being treated ::

~D94/10~ - PCT/US93/1~

6~ 6 in the event of a distendable bladder rupture.
It i8 still another objeet of the present invention to provide an apparatus with a elo~ed fluid system in whieh no fluid i8 either introdueed or extracted during a proeedure, thus preserving the integrity of the sterile field.
The present in~ention also provides an apparatus for thermally treating of the tissue lining of a body cavity, and, in partieular, substantially the entirety of the endometrium of a mammalian uterus eomprising: a eatheter having a proximal end and a distal end and provided with a first lumen and a seeond lumen, said first lumen provided with a proximal fluid aeeess port and a distal fluid aeeess port, said seeond lumen provided with a proximal fluid aeeess port and a distal fluid access port; a distendable bladder. means attaehed to said distal end of said eatheter for insertion into and distending ~ the body eavity to be treated, said first lumen distal ;~ . fluid aeeess port and said seeond lumen distal fluid aeeess port in fluid eommunieation with the interior of .
~: : said bladder; eireulating means for eireulating said inflation medium attaehed to said proximal end of said eatheter, said first lumen proximal fluid aeeess port and ~ said seeond lumen proximal fluid aeeess port in fluid .~ 25 communication with the interior of said eireulating mean~;~a~fluid aeeess port in fluid eommunieation with .the~interior or said apparatus for the introduetion and ~extraetion of an inflation medium into and out of said apparatus, said fluid aeeess port pro~ided with a fluid . 30 eontrol means for eontrolling the flow of said inflation . mRdium through said fluid aeeess port; inflating means detachably connected to said fluid acces~ port for introdueing said inflation medium into the interior of ::: said apparatus; eontrol means eonneeted to said inflating means for regulating the inflating of said bladder;
heating means positioned internal to said apparatus for heating said inflaeion medium; control means connected to WO 94/10D48 ~. PCI'JUS93/10838 Zl~6~5 said heating means for regulating the heating of said inflation medium means; and control means connected to said circulating means for regulating the circulating of said inflation medium.
The present invention provides an apparatus for thermally treating the tissue lining of a body cavity, and in particular, ~ubstantially the entirety of the endometrium of a mammalian uterine comprising: a catheter I having a proximal end and a di~tal end and p~ovided with ¦ lO a first lumen and a second lumen, said first lumen provided with a proximal fluid access port and a distal fluid access port, said second lumen provided with a proximal fluid access port and a distal fluiq access port; a distendable bladder means attached to said distal end of said catheter for insertion into and distending ~: the body cavity to be treated, Raid first lumen distal ~: fluid access port and said second lumen distal fluid access port in fluid communication with the interior of ~aid bladder; a fluid access port in fluid communication : - 20- with the interior of said apparatu~ for the introduction ;~ and extraction of an inflation medium into and out of said apparatus, said fluid access port provided with a fluid control means for controlling the flow of said inflation medium through ~aid fluid access port;
25 inflating means detachably connected to said fluid access ~J ~: : port for introducing said inflation medium into the interior of said apparatu~; control means connected to said inflating means for regulating the inflating of said bladder; heating means positioned internal to said ~: ~30 apparatus for heating ~aid inflation medium; control ~ '' ` means connected to ~aid heating means for regulating the -~ heating of said inflation medium; a flexible fluid conduit having a first end and a 9econd end attached to said proximal end of said catheter, said first lumen 35 proximal fluid access port and said second lumen proximal fluid access port in fluid communication with said first ~ end and said second end of said flexible fluid conduit;
:~:

. . ...................... ...... ... .. ... ,. .... ,.,. , .. . .. .... . .. .... ... . ... ~.. . . . .. . ...... . . . .. ..

W094/1OD48 PCT/US93/108~

circulating means cooperating with the external surface of said flexible fluid conduit 80 as to pump said inflation medium through Yaid flexible fluid conduit; and control means connected to said circulating means for regulating the circulating of said inflation medium.
The present invention also provide~ an apparatus for thenmally treating the tissue lining of a body cavity, and in particular, substantially the entirety of the endometrium of a mammalian uterine cGmprisin~: a catheter having a proximal end and a distal end and provided with a first lumen and a second lumen, said first lumen provided with a proximal fluid..access port and a distal fluid access port, said second lumen provided with a proximal fluid access port and a distal fluid acce~s port; a distendable bladder means attached to said distal end of said catheter for insertion into and distending the body cavity to be treated, said first lumen distal fluid access port and said second lumen distal fluid . access port in fluid communication with the interior of ::~ 20 said bladder; a distendable reservoir means attached to said proximal end of said catheter, said first lumen proximal fluid acces~ port and said second lumen proximal fluid access.port in fluid communication with the interior of said distendable reservoir means; a sterilized fluid medium permanently sea~ed within said - - apparatus; inflating means in commNnication with the external ~urface of said distendable reservoir means for introducing said inflation medium from said distendable reservoir means into said distendable bladder means;
; 30 control means connected to said inflating means for : regulating the inflating of said bladder; heating means for heating said inflation medium; control means . connected to said heating means for regulating the : heating of said inflation medium; a flexible fluid conduit ha~ing a first end and a second end, said first end and said second end in fluid communication with the interior of ~aid distendable reservoir means; circulating WO94/l~k~ PCT/US93/108~8 2~7~

means cooperating with the external surface of said flexible fluid conduit 80 as to pump said inflation medium through said flexible fluid conduit; and control means connected to said circulating means for regulating the circulating of said inflation medium.

BRIEF DESCRIPTION OF THE DRAWINGS
FIG. 1 depicts an apparatus having an internal pumping means constructed in accordance with the 10 invention;
FIG. 2 depicts a fluid introduction and extraction means constructed in accordance with the invention;
FIG. 3 depicts an apparatus having pumping means external to the fluid system constructed in accordance with the invention;
FIG. 4 is a detailed view of the pumping means shown in FIG. 3;
FIG. 5 depicts an apparatus having a closed fluid system;
FIG. 6 depicts a housing for the closed fluid apparatus shown in FIG. 5;
FIG. 7 depicts the unpressurized apparatus of FIG. 5 inserted into the housing shown in FIG. 6;
FIG. 8 shows the pressurized apparatus of FIG. 5 inserted into the housing of FIG. 6; and FIG. 9 shows a control panel constructed in accordance with the invention.

DESCRIPTION OF A PREFERRED EMSODIMENT
FIG. 1 shows an apparatus 75 provided with a dual - lumen catheter 1 having a proximal end 4 and a distal end 5. The dual lumen catheter 1 is provided with a first lumen 2 and a second lumen 3. The catheter 1 may be made from a wide variety of materials well known to those skilled in the art as suitable for this purpose, however, in a preferred embodiment Teflon~ or A B S type tubing are utilized. First lumen 2 is provided with a proximal W094/10~ PCT/US93/10838 69S -~, fluid access port 6 and a distal fluid acces~ port 7.
Second lumen 3 is provided with a proximal fluid acce~s port 8 and a distal fluid access port 9. In a preferred embodiment, the catheter 1 is ther~ally non-transmissive 5 80 that heated fluid 19 does not lose heat to the cooler fluid as it traverses the catheter 1 in first lumen 2 and second lumen 3. This also helps protect the tissue which comes in co~tact with the external surface of catheter 1.
A means for insulating 11 may be applied to the external surface of catheter 1 to protect tissue which comes into : contact with the external surface of catheter 1. An , inflatable distendable bladder 10 i8 attached to the i~ distal end 5 of dual lumen catheter 1 and fo,rms a fluid 'tight seal with the external surface of dual lumen ; 15 catheter 1 proximal to fluid access ports 7 and 9..... It will be appreciated that the distendable bladde^ 10 could be integrally formed in,the distal end 5 of the catheter ,-~ 1. Fluid access ports 7 and 9 are in fluid communication ;~, with the interior of distendable bladder 10. A pumping means,l2 having an inlet port 13 and an outlet port 14 i8 ',,~ attached to the proximal end 4 of dual lumen catheter 1.
, The interior of the pumping means 12 is in fluid ,~ communication with flùid access ports 6 and 8. The.
'~ : apparatu~ 75 is provided with a fluid access port 16 for the introduction:and extraction of sterilized fluid 19 , . ineo,-and:~out of.,.:the apparatus 75. The fluid access port .~ 16 is ad~pted to fluidly cooperate with means 28 (FIG. 2) ,-` ~ for introducing and extracting ~terilized fluid 19 into : and out of the apparatus 75. Fluid control means 29 - 30 controls the fluid 19 entering or leaving pumping means . ;-. 12:via fluid access port 16. A variety of fluid control :~ mean~ well:known to those skilled in the art as suitable for this purpo~e may be employed, however, in a preferred embodiment a stopcock is utilized. A heater 20, e.g., a nichrome resistance coil, is positioned in the apparatus 75 to heat the fluid 19 to the desired temperature.
, Heater control means 22 on control panel 23 (FIG. 9) , ~ '~

WO 94/10948 pcr/US93/lo838 `--` 212769!~

provides electricity via lead 21 to energize heater 20.
The duration and temperature to which heater 20 i8 heated are controlled by the flow of electricity to heater 20 which i8 regulated by heater control means 22 o~ control 5 panel 23. Temperature sensing means 15, e.g., a thermocouple senses the temperature of fluid l9 and transmits the readings via lead 24 to temperature display means 25 on control panel 23. In a preferred embodiment, the pumping means 12 is an electric motor coupled to an impeller 38. Pumping means 12 is energized via lead 26 from pumping means control means 27 on control panel 23.
F~G. 2 shows a means 28 for introducing and extracting fluid l9 from the interior of the apparatus 75. Tubing 30 is provided with a first end 31 adapted to form a substantially fluid tight seal with fluid access port 16 and a second end 32 adapted to form a fluid tight seal with a sterile fluid reservoir capable of imparting pressure on the fluid l9. Fluid tight connections are conventionally made with luer connector~ or the like. A
variety of fluid reservoirs well Icnown to those skilled -~ in~the art as suitable for this purpose may be employed, however, in a preferred embodiment a syringe means 33 is utilized~. A pressure transducer 34 is in fluid ca~ication with the interior of tubing 30 and ~tr~mit- the int-rnal pressure of the~fluid l9 within t-he~tubing 30~ vla 1ead 36 to fluid pressure display means 35~where the infonnation i8 displayed on control panel In operation, the apparatus 75 is unpacked from a ~terile~package and leads 24, 26, and 21, are connected to control panel 23 and the distendable bladder lO
portlon-of apparatu~ 75 i8 introduced into the area to be treated, e.g., a uterine endetrium. The dual lumen -~ catheter 1 and the attached distendable bladder lO ~ml8t be sufficiently small 90 that they can be conveniently and safely inserted into the body cavity to be treated, e.g., a uterus through a partially dilated cervix, when :~
.

. W094/1~k~ PCT/US93/108~

2~,~1 6g~

the distendable bladder 10 is deflated.
Distendable bladder 10 must be capable of withstanding high tempera~ures without rupturing and preferably ha~e as good a heat transfer characteristic as is obtainable in such materials to provide efficient heating action. A distendable bladder of a heat curing rubber such as latex and silicone has been found satisfactory.
The means for introducing and extractin~ fluid 28 is then unpacked from a sterilized package and lead 36 i9 connected to control panel 23. The means for introducing and extracting fluid 28 i8 then filled with sterile fluid 19. Fluid 19 preferably should be a sterile non-toxic fluid with a boiling point of at least 212F. A five percent dextrose in water solution has been found satisfact~ry. After the distendable bladder 10 has been inserted into the area to be treated, the distendable bladder 10 should be inflated to a pressure sufficient to énsure firm contact with the tissue to be treated. The first end 31 of tubing 30 is placed in fluid communi-~i cation with fluid access port 16 and the fluid 19 is introduced into the apparatus 75 by depressing the i plunger 37 of syringe means 33. Distendable bladder 10 should preferably be maintained at or about 40 to 240 mmHg, and preferably about 75 m~Hg, to minimize risk ofrupture of the distendable bladder lO and pos8ible internal injury to the patient. Inflation of the distendable bladder 10 with a fluid 19 assures uniform contact of the distendable bladder lO with the tissue to ~, 30 be treated.
j When the desired pre~sure ha8 been reached, as l measured by transducer 34 and displayed at fluid pressure display means 35, fluid control means 29 i~ turned to a clo3ed position so as to restrict the flow of fluid 19 in or out of apparatus 75. The first end 31 of tubing 30 of fluid introducing and extracting means 28 is then removed from fluid access port 16. The fluid introducing and WO94/10948 PCT/US93/1~ ~
69~

extracting means 28 i8 put aside for use later in the procedure.
Heater 20 is then energized via lead 21 from heating means control mean~ 22 on control panel 23 for a-period of time and to a temperature sufficient to raise the temperature of the fluid 19 to the desired temperature.
While fluid 19 is being heated to the desired temperature, as measured by sensing means 15 and displayed at temperature display means 25, internal pump means 12 is energized via pump means control means 27.
Impeller 38 turns in response to the electrical current provided by lead 26 and the fluid 19 is drawn into internal pump means 12 via inlet port 13 and is expelled out of internal pump means 12 via outlet port 14. AS the ¦ 15 fluid 19 leaves outlet port 14 it is heated by heater 20.
The fluid 19 then enters first lumen proximal access port ~: 6 and traverses the first lumen 2 in a direction towards . its distal end 5 and enters distendable blad~er 10 via first lumen distal fluid access port 7. After circulating within distendable bladder 10, fluid 19 leaves distendable bladder 10 and enter~ second lumen 3 via second lumen distal fluid access port 9. The fluid 19 then traverses the second lumen 3 in a direction towards its proximal end 4 and leaves second lumen 3 via second lumen proximal fluid access port 8. The fluid 19 then enters internal pump means 12 via inlet port 13, and recirculated.~ Temperature sensing means 15 measures ~:~ . the~temperature of fluid 19 and displays the temperature at temperature display means ~5 on control panel 23.
Automatic temperature regulating means 50 may be provided between the temperature display means 25 and the heating ~: control means 22 for automatically regulating the . temperature of fluid l9.
~: Upon completion of the procedure the first end 31 of tubing 30 i8 connected to fluid access port 16. Fluid control means 29 is again manipulated to allow.the fluid to be withdrawn through fluid access port 16.
:

, W094/1~k8, PCT/US93/108~

2~ 6~S 14 Manipulating the plunger 37 of syringe means 33 causes fluid 19 to be withdrawn from the interior of the apparatus 75 through fluid access port 16 and the distendable bladder 10 deflates. Upon deflation, the distendable bladder 10 of apparatus 75 may be safely withdrawn from the patient.
The apparatus 75 may then be discarded or may be sterilized for subsequent use. The time and expense associated with sterilizing apparatus 75 may be warranted by the cost of the pumping means 12 which is contained within the apparatus 75.
FIG. 3 depicts an alternative embodiment 9,0 of the present invention wherein the pumping means is an externally mounted peristaltic pump means 18 which does not come in direct contact wih fluid 19. The externaIly mounted peristaltic pump means 18 is removably attached to the outside of the fluid loop 79 of flexible fluid conduit 78. FIG. 4 is a detailed view of the externally mounted peristaltic pump means~ of FIG. 3. Attachment and detachment may be facilitated by ~snap" type mounting means 108. Because the externally mounted peristaltic pump 18 never comes in contact with fluid 19, it need not be sterilized after use. When the procedure is ,~; ,completed, the externally mounted peristaltic pump 18 can be quickly and easily disengaged from flexible'fluid conduit 78 and can be~tored and used in subsequent treatments. Thus, pumping means 18 can be repeatedly ~ utilized in subsequent treatments and the flexible fluid¦- conduit 78, dual lumen catheter 1~, and distendable ';~ 30 bladder 10' may be disposed of with a significant ' ~ , , reduction in cost. The flexible fluid conduit 78, dual ~'~ lumen catheter 1', and distendable bladder lO' may also be sterilized and used again if de~ired.
In the embodiment shown in FIGS. 3 and 4, the apparatus 90 is provided with a flexible fluid conduit 78 ~ having an inlet port 76 and an outlet port 77. Inlet '~ port 76 and outlet port 77 are in fluid communication ::
:~:

W094/10~ - PCT/US93/108~
69~

with the interior of lumens 2~ and 3~. A portion of fluid conduit 78 forms a fluid loop 79. External peristaltic pump means 18 communicates with the outer surface of external fluid loop 79 80 as to pump~the fluid 19 through flexible fluid conduit 78. A variety of means well known to those skilled in the art as ~uitable for thi~ purpose may be employed to mechanically impinge UpOll external fluid loop 79, however, in a preferred embodiment a peristaltic pump available from A.S.F. Inc., 2100 Norcross Parkway, Norcross, Georgia 30071, U.S.A. is employed. ~ longitudinal member 100 having a first end 101 and a second end 102 is fixedly mounted on motor shaft 103 of motor 104 80 that the longitudinal member 100 will turn in response to the rotation of the motor shaft 103. The motor 104 is activated by pump means control means 27' which provides electricity to motor 104 via lead 26~. The first end 101 of longitudinal member ~- 100 may be provided with a first roller 105 and the 1 ~ second end 102 may be provided with a Qecond roller 106 ! ~ 20 to reduce friction on the external surface of external 1 .
¦ ~ fluid loop 79. The length of longitudinal member 100 and ~ the diameter of rollers 105 and 106 i8 such that as ,-~ longitudinal member 100 rotates, rollers 105 or 106, impinge upon and compres~ external fluid loop 79 to approximately-one-half of its diameter. When motor 104 i8 energized,~longltudinal member 100 rotates and rollers 105 or 106 come into contact with and compress external fluid loop 79 against housing 107 so that fluid 19 i8 expelled from fluid conduit 78 via outlet port 77 and is ~drawn into fluid conduit 78 via inlet port 76.
In operation, the distendable bladder 10' of apparatus 90 is positioned in the area to be treated and the treatment i~s per~onmed as previou~ly discussed. When the treatment has been completed the external pumping -`~ 35 means 18 is disconnected from the fluid loop 79 of flexible fluid conduit 78 before flexible conduit 78, catheter 1', and distendable bladder 10~ are either WOg4~109~ - P~TJUS93/10~
2~ 6'~

disposed of or sterilized for ~ubsequent use.
I~ an alternati~e embodiment, shown in FIGS. 5, 6, 7, and 8, the apparatus i~ a closed fluid apparatu~ 125 wherein fluid is neither introduced nor withdrawn from S the interior of the apparatus. Thus, the integrity of the ster~le field is maintained. A distendable reservoir 127 is attached at the proximal end 4 H of catheter l n .
In a preferred embodiment the distendable reservoir 127 is made of a thermally transmis~ive material so that the fluid 19" can be heated by a heater 20" positioned external to the distendable reservoir 127.
FIG. 5 ~hows the clo~ed fluid apparatus 125 which is provided with a flexible fluid conduit 78 n having an inlet port 76 n and an outlet port 77". Inlet ports 76"
and 77" are in fluid communication with the interior of distendable reservoir 127. A portion of fluid conduit 78" extends outside distendable reservoir 127 to form an external fluid loop 79 n . The external surface of fluid conduit 7~ forms a fluid tight seal at its points of exit 80~ and 81~ from distendable reservoir 127.
FIG. 6 shows an apparatus housing 126 provided with an external peristaltic pump means 18" and a breech 129 for receiving the distendable reservoir 127. When closed fluid apparatuQ 125 i8 inserted into housing 126, peristaltic pump means 18~ communicates with and impinges upon the outer surface of external fluid loop 79" so as to pump the fluid 19~ in and out of external fluid loop 7g~ as pre~iously discussed. A temperature sensing means 15n~ a pressure transducer 34~ and a heater 20" are disposed on a pressure plate 128. An inflating means, such as a pressure plate 128, is used to selectively apply pressure to the di~tendable reservoir 127 qo as to jincrease the pressure of the fluid 19" within the closed fluid apparatus 125. The temperature sensing means 15 n, 35 pressure transducer 34 n and heater 20" may be housed -Iwithin the distendable reservoir 127, however, in a preferred embodiment they are mounted externally so as to WO~ION8 PCT/US93/1 minimize the one-time use cost. The trigger 130 is coupled to the pressure plate 128 via a ratchet means so that each pull of the trigger 130 causes the pressure plate 128 to be moved in small increments. When~ratchet control lever 131 i8 moved to a fir~t position 132, pulling the trigger 130 causes pressure plate 128 to move in a direction towards distendable reser~oir 127. When ratchet control lever 131 i8 moved to a second position 133, pulling the trigger 130 causes pressure plate 128 to move in a direction away from distendable reservoir 127.
A hinged lid 150 is provided to secure closed fluid apparatus 125 within breech 129 of housing means 12~. A
cord 152 houses lead~ 21", 24~, 26" and 36" which communicate with control panel 23 n .
lS In operation, the closed fluid apparatus 125 is removed from a steriIe package and is inserted into housing means 126 as ~hown in FIG. 7. The closed fluid apparatus 125 i8 inserted into the breech 129 of housing means 126 80 that temperature sensing means 15~, pressure transducer 34~ and heater 20" are in intimate contact with the external surface of distendable reservoir 127.
~id 150 is then lowered 80 as to secure the closed fluid -~ ~ apparatus 12S within the breech 129 of applicator means - ~ 126 as shown in FIG. 8. Heater 20" is then energized and 1 ~ ~
~ 25 the fluid 19~ is heated to the desired temperature as ¦~ measured by temperature sensing means 15~ as previously ~ discussed. Pump means 18~ is also energized to circulate -~ the fluid 19~ as previously discussed. The closed fluid apparatus 125 is then inserted into the body cavity to be ~; - 30 treated. Ratchet control lever 131 is moved to a first ~ position 132 and trigger 130 is pulled 80 as to move the i~ pressu~e plate 128 in a direction towards distendable -~ reservoir 127 80 as to impart a pressure on the fluid 19 n within the reservoir 127. In response, the fluid 19 n ~; 35 takes the path of least resistance and enters distendable bladder 10 n via lumens 2 n and 3 n of catheter 1 n as shown ;~ in FIG. 8. When the desired pressure has been reached, : , WO 94~10948 - PCI`/US93/10838 2~t 693 as measured by pressure transducer 34 n, the treatment commences.
When the treatment i9 complete, the ratchet control lever 131 is moved to the second position 133. The trigger 130 is repeatedly pulled and pressure plate 128 moves away from distendable reservoir 127, thus, reducing the pressure of the fluid 19 n within the closed fluid apparatus 125. The fluid 19N then moves from distendable bladder 10 n into the distendable reservoir 127, thus, decreasing the volume of the distendable bladder 10".
The closed fluid system 125 i8 then removed from the body cavity being treated. The lid 150 is lifted and the distendable reservoir 127 is removed from breech 129 and the closed fluid apparatus 125 may be discarded or may be sterilized for subsequen' use. The housing means 126 is saved and can be used again in subsequent treatments.

.', , .

a ~, ,' :
. .`

Claims (15)

What is claimed is:

1. An apparatus for thermally treating a tissue lining a body cavity, comprising:
a catheter having a proximal end and a distal end and provided with a first lumen and a second lumen, said first lumen provided with a proximal fluid access port and a distal fluid access port, said second lumen provided with a proximal fluid access port and a distal fluid access port;
a distendable bladder means attached to said distal end of said catheter for insertion into and distending the body cavity to be treated, said first lumen distal fluid access port and said second lumen distal fluid access port in fluid communication with the interior of said bladder;
circulating means for circulating said inflation medium attached to said proximal end of said catheter, said first lumen proximal fluid access port and said second lumen proximal fluid access port in fluid communication with the interior of said circulating means;
a fluid access port in fluid communication with the interior or said apparatus for the introduction and extraction of an inflation medium into and out of said apparatus, said fluid access port provided with a fluid control means for controlling the flow of said inflation medium through said fluid access port;
inflating means detachably connected to said fluid access port for introducing said inflation medium into the interior of said apparatus;
control means connected to said inflating means for regulating the inflating of said bladder;
heating means positioned internal to said apparatus for heating said inflation medium;
control means connected to said heating means for regulating the heating of said inflation medium means; and control means connected to said circulating means for regulating the circulating of said inflation medium.

2. The apparatus of claim 1, wherein said inflating means comprises a pumping means in fluid communication with said fluid access port for pumping said inflation medium into said apparatus so as to inflate said bladder.

3. The apparatus of claim 2, wherein said pumping means comprises a hypodermic barrel.

4. The apparatus of claim 1, further comprising means for engaging and disengaging said hypodermic barrel from said fluid access port so that the apparatus and the inflating means may be separated.

5. The apparatus of claim 4, wherein said means for engaging and disengaging said hypodermic barrel from said fluid access port is a bayonet coupling.

6. The apparatus of claim 1, wherein said catheter is selected from the group comprising TeflonTM
and A B S type tubing.

7. The apparatus of claim 1, further comprising a positioning means for positioning said distendable bladder in the body cavity.

8. The apparatus of claim 7, wherein said positioning means comprises scale gradations on the catheter for indicating depth of insertion of said distendable bladder into the body cavity.

9. The apparatus of claim 1 wherein said distendable bladder is capable of resisting an internal pressure of at least 300 mmHg without rupturing and a temperature of at least 250° Fahrenheit without carbonizing.

10. The apparatus of claim 9, wherein said bladder is selected from the group comprising latex and silicone rubber.

11. The apparatus of claim 1, wherein said temperature control means comprises a thermocouple for measuring the temperature of said inflation medium positioned internal to said apparatus, said thermocouple connected to said temperature control means.

12. The apparatus of claim 1, wherein said pressure control means comprises a pressure sensor in fluid communication with said inflating means, said pressure sensor connected to a pressure display means for displaying the internal pressure of said inflating means.

13. An apparatus for thermally treating a tissue lining a body cavity, comprising:
a catheter having a proximal end and a distal end and provided with a first lumen and a second lumen, said first lumen provided with a proximal fluid access port and a distal fluid access port, said second lumen provided with a proximal fluid access port and a distal fluid access port;
a distendable bladder means attached to said distal end of said catheter for insertion into and distending the body cavity to be treated, said first lumen distal fluid access port and said second lumen distal fluid access port in fluid communication with the interior of said bladder;
a fluid access port in fluid communication with the interior of said apparatus for the introduction and extraction of an inflation medium into and out of said apparatus, said fluid access port provided with a fluid control means for controlling the flow of said inflation medium through said fluid access port;
inflating means detachably connected to said fluid access port for introducing said inflation medium into the interior of said apparatus;
control means connected to said inflating means for regulating the inflating of said bladder;
heating means positioned internal to said apparatus for heating said inflation medium;
control means connected to said heating means for regulating the heating of said inflation medium;
a flexible fluid conduit having a first end and a second end attached to said proximal end of said catheter, said first lumen proximal fluid access port and said second lumen proximal fluid access port in fluid communication with said first end and said second end of said flexible fluid conduit;
circulating means cooperating with the external surface of said flexible fluid conduit so as to pump said inflation medium through said flexible fluid conduit; and control means connected to said circulating means for regulating the circulating of said inflation medium.

14. The apparatus of claim 13 wherein said circulating means is a peristaltic pump.

15. A closed fluid apparatus for thermally treating a tissue lining a body cavity, comprising:
a catheter having a proximal end and a distal end and provided with a first lumen and a second lumen, said first lumen provided with a proximal fluid access port and a distal fluid access port, said second lumen provided with a proximal fluid access port and a distal fluid access port;

a distendable bladder means attached to said distal end of said catheter for insertion into and distending the body cavity to be treated, said first lumen distal fluid access port and said second lumen distal fluid access port in fluid communication with the interior of said bladder;
a distendable reservoir means attached to said proximal end of said catheter, said first lumen proximal fluid access port and said second lumen proximal fluid access port in fluid communication with the interior of said distendable reservoir means;
a sterilized fluid medium permanently sealed within said apparatus;
inflating means in communication with the external surface of said distendable reservoir means for introducing said inflation medium into said distendable bladder means from said distendable reservoir means;
control means connected to said inflating means for regulating the inflating of said bladder;
heating means for heating said inflation medium;
control means connected to said heating means for regulating the heating of said inflation medium;
a flexible fluid conduit having a first end and a second end, said first end and said second end in fluid communication with the interior of said distendable reservoir means;
circulating means cooperating with the external surface of said flexible fluid conduit so as to pump said inflation medium through said flexible fluid conduit; and control means connected to said circulating means for regulating the circulating of said inflation medium.