Thermal balloon catheter and method

US 5,417,689 A
Filed: 01/18/1994
Issued: 05/23/1995
Est. Priority Date: 01/18/1994
Status: Expired due to Term

First Claim

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1. A method for treating a blood vessel stenosis in a subject, said method comprising the steps of:

inserting a catheter into a blood vessel of a subject until a balloon located at a distal end portion of the catheter is within a stenosis treatment region of the blood vessel;

conducting fluid under pressure into the balloon at a first end portion of the balloon to inflate the balloon to contact the inner surface of the treatment region of the blood vessel and expand the treatment region of the blood vessel to increase the flow area in the treatment region of the blood vessel;

heating the fluid within the inflated balloon for a predetermined time interval while maintaining the balloon in contact with the treatment region of the blood vessel;

exhausting the heated fluid from the balloon through a return passage located at a second end portion of the balloon axially opposite the first end portion of the balloon; and

replacing the exhausted fluid with cooler fluid to cool the heated treatment region of the blood vessel by conducting the cooler fluid into the balloon at the first end portion of the balloon while maintaining the balloon inflated.

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Abstract

The method and apparatus of the present invention is for treating a blood vessel stenosis region in a subject. The method comprises the steps of inserting a catheter into a subject until a balloon located at a distal end portion of the catheter is within a treatment region of a blood vessel. The catheter comprises an elongated tubular body member having first and second axially extending passages. The balloon is located at a distal end portion of the tubular body member and is in fluid communication with the first and second passages. A mechanism supplies fluid under pressure through the first passage to a first axial end portion of the balloon to inflate the balloon. A heater located within the balloon elevates the temperature of the fluid to a first temperature. The first temperature is maintained for a predetermined time interal. A thermocouple senses the temperature of the fluid within the balloon. A control establishes the temperature during a thermal treatment cycle in response to the temperature of the fluid sensed by the thermocouple. The second passage conducts the heated fluid from the balloon at a second axially opposite end portion of the balloon after the thermal treatment cycle. The heated fluid removed from the balloon is replaced with a fluid at a second temperature less than the first temperature through the first passage.

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16 Claims

1. A method for treating a blood vessel stenosis in a subject, said method comprising the steps of:
- inserting a catheter into a blood vessel of a subject until a balloon located at a distal end portion of the catheter is within a stenosis treatment region of the blood vessel;
  
  conducting fluid under pressure into the balloon at a first end portion of the balloon to inflate the balloon to contact the inner surface of the treatment region of the blood vessel and expand the treatment region of the blood vessel to increase the flow area in the treatment region of the blood vessel;
  
  heating the fluid within the inflated balloon for a predetermined time interval while maintaining the balloon in contact with the treatment region of the blood vessel;
  
  exhausting the heated fluid from the balloon through a return passage located at a second end portion of the balloon axially opposite the first end portion of the balloon; and
  
  replacing the exhausted fluid with cooler fluid to cool the heated treatment region of the blood vessel by conducting the cooler fluid into the balloon at the first end portion of the balloon while maintaining the balloon inflated.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
- - 2. The method of claim 1 wherein said steps of exhausting and replacing the heated fluid includes the step of cooling the fluid within the balloon from a temperature of 60°
    - C. or greater to a temperature of 38°
      
      C. or less in five seconds or less.
  - 3. The method set forth in claim 2 wherein said rate of cooling is constant during said replacing step.
  - 4. The method of claim 1 further including the step of providing a dual passage catheter body and wherein said inflating step includes forcing the fluid through a first passage to the first end portion of the balloon and wherein said exhausting step includes venting the heated inflating fluid from the second end portion of the balloon through a second passage.
  - 5. The method of claim 1 where said step of heating the fluid includes the step of energizing a current-carrying electrode located within the axial extent of the balloon.
  - 6. The method of claim 5 further including the step of sensing the temperature of the fluid within the balloon during said heating step and controlling the application of energy to the electrode as a function of the temperature sensed.
  - 7. The method of claim 5 wherein said energizing step further includes energizing the electrode with D.C. power supplied by at least one battery.
  - 8. The method of claim 5 further including the step of providing the electrode at a location within the axial extent of the balloon between the first and second end portions of the balloon.
  - 9. The method set forth in claim 8 wherein said electrode providing step includes electrically insulating the electrode from contacting the inflating fluid within the balloon.
  - 10. The method set forth in claim 1 wherein said heating step time interval is at least ten seconds.
  - 11. The method set forth in claim 9 further including a holding step after said replacing step, said holding step comprises holding the balloon in an inflated condition for at least ten seconds.

12. An improved thermal balloon catheter for treating a blood vessel stenosis in a subject, said catheter comprising:
- an elongated catheter body having an outer longitudinally extending member spaced from an inner longitudinally extending tubular member by a fluid conveying gap;
  
  a balloon attached to a distal end portion of said catheter body in fluid communication with said fluid conveying gap and overlying a portion of the inner tubular member that extends beyond the outer member;
  
  a source for supplying fluid under pressure from a proximal end of the catheter body through said gap to inflate said balloon;
  
  a resistive heating electrode comprising a conductive strip which is helically wound onto a portion of said tubular member within the balloon for increasing the temperature of the fluid located within said balloon;
  
  a sensor located within the balloon for sensing the temperature of the fluid within said balloon; and
  
  a controller electrically coupled to the sensor and also electrically coupled to the heating electrode by conductors passing through the catheter body for energizing the electrode to control the temperature of fluid within the balloon during a thermal treatment interval in response to the temperature of the fluid within said balloon;
  
  said inner tubular member defining an opening into a passage that extends through at least a portion of the inner tubular member for removing heated fluid from the balloon, said opening located within a distal end portion of said balloon.
- View Dependent Claims (13, 14, 15, 16)
- - 13. The catheter of claim 12 additionally Comprising a valve in fluid communication with said passage extending through the inner member that opens in response to pressure within said passage increasing to a predetermined pressure to allow fluid to flow through said passage and from said balloon.
  - 14. The catheter of claim 12 wherein said catheter further includes electric leads extending through the gap to a proximal end of the catheter where the leads are connected to an external energy source.
  - 15. The catheter of claim 14 further including a material encapsulating said resistive heating electrode to electrically insulate said resistive heating electrode from fluid located within said balloon.
  - 16. The catheter of claim 14 wherein said external energy source comprises a D.C. energy source.

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Current Assignee
Cordis Corporation (Cardinal Health, Inc.)
Original Assignee
Cordis Corporation (Cardinal Health, Inc.)
Inventors
Fine, Michael J.
Primary Examiner(s)
Pellegrino, Stephen C.
Assistant Examiner(s)
LEWIS, WILLIAM W

Application Number

US08/182,776
Time in Patent Office

490 Days
Field of Search

606/27, 606/28, 606/191, 606/194, 606/192, 606/7, 604/96
US Class Current

606/41
CPC Class Codes

A61B 18/08   by means of electrically-he...

A61B 2017/00092   using thermocouples

A61B 2017/22001   Angioplasty, e.g. PCTA

A61B 2018/046   in liquid form

A61F 2007/126   for invasive application, e...

A61M 2205/36   related to heating or cooling

A61M 2205/3653   by Joule effect, i.e. elect...

A61M 25/104   used for angioplasty

Thermal balloon catheter and method

First Claim

1 Assignment

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Accused Products

Abstract

Citations

16 Claims

Specification

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Thermal balloon catheter and method

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

Citations

16 Claims

Specification

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Solutions

Use Cases

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