Blood warming method and apparatus using gaseous heat exchange medium

US 4,707,587 A
Filed: 01/27/1986
Issued: 11/17/1987
Est. Priority Date: 01/27/1986
Status: Expired due to Term

First Claim

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1. A method of warming chilled fluid forced out of a pressure infusion device, the method comprising the steps of:

(a) inserting a flexible disposable fluid warming jacket into a fluid warming device, the fluid warming jacket having an inlet and an outlet and a plurality of thin elongated fluid conducting paths leading from the inlet to the outlet, the fluid warming device having a narrow, deep elongated recess for receiving the fluid arming jacket, the recess being bounded by a pair of thermally conductive opposed major walls, each thermally conductive wall having a heat exchanger in thermal contact therewith;

(b) guiding air from an outlet of an electric blower through an electric heating element to heat the air to a predetermined temperature;

(c) guiding the heated air from the heating element through the heat exchangers to heat the major walls;

(d) forcing chilled fluid from the pressure infusion device into the inlet of the fluid warming jacket, thereby causing the chilled fluid to be forced into the plurality of fluid conducting paths of the fluid warming jacket and causing the fluid warming paths to expand, thereby causing the fluid warming jacket to tightly contact the heated major walls of the recess, whereby fluid moving through the fluid conducting paths is heated;

(e) guiding air from a downstream portion of the heat exhangers to an inlet of the electric blower to thereby recycle and reheat that air;

(f) sensing the temperature of the fluid near the outlet of the fluid warming jacket; and

(g) immediately controlling the temperature of the heating element in response to the sensed fluid temperature to rapidly correct any overtemperature condition in the fluid,whereby the low heat capacity of the guided, heated air is so low that corrections in the temperature of the heating element lead to immediate corresponding corrections in the temperature of the air and prevent temperature overshoot of the fluid as the fluid absorbs heat from the air during the temperature correction so that the temperature of the guided air can be be increased to allow increased flow of the fluid without danger of overheating portions of the fluid.

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Abstract

A blood warming device circulates air as a heating medium through a heater element and heat exchangers to transfer heat from the air to chilled blood being forced through the channels in a disposable warming jacket. A temperature sensor is disposed near an outlet of the blood warming jacket. An electronic control circuit operates on the signals produced by the temperature sensor to produce a cutoff signal that immediately stops the flow of heated air through the heat exchanger if the sensed blood temperature exceeds a predetermined level. The low heat capacity of the air is sufficiently low that no overheating of blood in the blood warming jacket occurs even if the blood flow is interrupted so that blood remains stationary in the blood warming jacket. The disposable warming jacket inclues a plurality of parallel blood paths, resulting in a high flow rate of heated blood. Blood output from one section of a warming jacket can be input to the inlet of another section to further raise the temperature thereof.

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32 Claims

1. A method of warming chilled fluid forced out of a pressure infusion device, the method comprising the steps of:
- (a) inserting a flexible disposable fluid warming jacket into a fluid warming device, the fluid warming jacket having an inlet and an outlet and a plurality of thin elongated fluid conducting paths leading from the inlet to the outlet, the fluid warming device having a narrow, deep elongated recess for receiving the fluid arming jacket, the recess being bounded by a pair of thermally conductive opposed major walls, each thermally conductive wall having a heat exchanger in thermal contact therewith;
  
  (b) guiding air from an outlet of an electric blower through an electric heating element to heat the air to a predetermined temperature;
  
  (c) guiding the heated air from the heating element through the heat exchangers to heat the major walls;
  
  (d) forcing chilled fluid from the pressure infusion device into the inlet of the fluid warming jacket, thereby causing the chilled fluid to be forced into the plurality of fluid conducting paths of the fluid warming jacket and causing the fluid warming paths to expand, thereby causing the fluid warming jacket to tightly contact the heated major walls of the recess, whereby fluid moving through the fluid conducting paths is heated;
  
  (e) guiding air from a downstream portion of the heat exhangers to an inlet of the electric blower to thereby recycle and reheat that air;
  
  (f) sensing the temperature of the fluid near the outlet of the fluid warming jacket; and
  
  (g) immediately controlling the temperature of the heating element in response to the sensed fluid temperature to rapidly correct any overtemperature condition in the fluid,whereby the low heat capacity of the guided, heated air is so low that corrections in the temperature of the heating element lead to immediate corresponding corrections in the temperature of the air and prevent temperature overshoot of the fluid as the fluid absorbs heat from the air during the temperature correction so that the temperature of the guided air can be be increased to allow increased flow of the fluid without danger of overheating portions of the fluid.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19)
- - 2. The method of claim 1 wherein the fluid is blood.
  - 3. The method of claim 2 including controlling the speed of the electric blower in response to the sensed blood temperature.
  - 4. The method of claim 2 including sensing the temperature of blood near the inlet of the blood sensing jacket and controlling the the temperature of the heating element in response to both the sensed inlet blood temperature and the sensed outlet blood temperature.
  - 5. The method of claim 2 including turning off the electric blower if the sensed blood outlet temperature exceeds a predetermined level.
  - 6. The method of claim 2 including turning off the electric blower and the electric heating element if the temperature of the blood exceeds a predetermined level.
  - 7. The method of claim 5 wherein the predetermined level is approximately 42°
    - Centigrade.
  - 8. The method of claim 5 including turning off the electric heating element if the sensed outlet blood temperature exceeds a predetermined level.
  - 9. The method of claim 2 including guiding chilled blood being forced into the inlet of the blood warming jacket through a plurality of serpentine paths in the blood warming jacket to increase the amount of blood in thermal contact with the heated major walls of the recess.
  - 10. The method of claim 2 including inserting a plurality of blood warming jackets into the blood warming device, the blood warming device having a plurality of recesses bounded by closely spaced parallel major walls heated by transferring heat from the heated air to the heated major walls by means of heat exchangers.
  - 11. The method of claim 10 including connecting the inlets of the plurality of blood warming jackets in parallel relationship to each other and connecting the outlets of the plurality of blood warming jackets together in parallel relationship to each other.
  - 12. The method of claim 10 wherein the outlet of one of the blood warming jackets is connected to the inlet of another of the blood warming jackets, and the outlet of the second blood warming jacket is connected to an infusion catheter.
  - 13. The method of claim 2 including guiding blood from the outlet of the blood warming jacket through a tube to an infusion catheter.
  - 14. The method of claim 2 wherein the blood warming jacket is supported by a peripheral frame to facilitate insertion of the blood warming jacket into the recess of the blood warming device.
  - 15. The method of claim 5 including operating on a signal produced by a temperature sensing element disposed in the blood warming jacket near the outlet thereof by means of an electronic control circuit to produce first and second control signals and adjusting the temperature of the heating element in response to the first control signal and turning off the blower in response to the second control signal if the temperature of the outlet blood exceeds the predetermined level.
  - 16. The method of claim 15 including converting the signal representative of the sensed blood outlet temperature to a digital number by means of an analog-to-digital converter, operating a microprocessor to repetitively read the digital output of the analog-to-digital converter, and operating upon the digital output to produce heater control signals, and repetitively adjusting the heater temperature in response to the heater control signals.
  - 17. The method of claim 15 including operating the microprocessor in response to the digital output to generate blower speed control signals and repetitively adjusting the speed of the blower in response to the blower speed control signals.
  - 18. The method of claim 17 including operating the microprocessor to generate digital readout signals and producing a digital readout representative of the outlet blood temperature in response to the digital readout signals.
  - 19. The method of claim 5 including operating on a signal produced by a temperature sensing element disposed in the blood warming jacket near the outlet thereof by means of an electronic control circuit to produce a control signal and adjusting the blower speed in response to the control signal.

20. A fluid warming device for warming chilled fluid forced out of a pressure infusion device, the fluid warming device comprising in combination:
- (a) a flexible disposable fluid warming jacket having an inlet and an outlet and a plurality of thin elongated fluid conducting paths leading from the inlet to the outlet;
  
  (b) a narrow, deep elongated recess for recess for receiving the fluid warming jacket, the recess being bounded by a pair of thermally conductive opposed major walls;
  
  (c) heat exchanging means for transferring heat to the major walls;
  
  (d) an electric blower;
  
  (e) an electric heating element;
  
  (f) means for guiding air from an outlet of the electric blower through the heating element and for guiding the heated air through the heat exchanging means;
  
  (g) means for guiding chilled fluid from the pressure infusion device into the inlet of the fluid warming jacket, thereby causing the chilled fluid to be forced into the plurality of fluid conducting paths of the fluid warming jacket and causing the fluid warming paths to expand, thereby causing the fluid warming jacket to tightly contact the heated major walls of the recess, whereby fluid moving through the fluid conducting paths is heated;
  
  (h) means for sensing the temperature of fluid near the outlet of the fluid warming jacket; and
  
  (i) means for immediately controlling the temperature of the heating element in response to the sensed fluid temperature to rapidly correct any overtemperature condition in the blood,whereby the low heat capacity of the guided, heated air is so low that corrections in the temperature of the heating element lead too immediate corresponding corrections in the temperature of the air and prevent temperature overshoot of the fluid as the fluid absorbs heat from the air during the temperature correction so that the temperature of the guided air can be increased to allow increased flow of the fluid without danger of overheating portions of the fluid.
- View Dependent Claims (21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32)
- - 21. The fluid warming apparatus of claim 20 wherein the fluid is blood.
  - 22. The fluid warming apparatus of claim 21 including means for controlling the speed of the electric blower in response to the sensed blood temperature.
  - 23. The fluid warming device of claim 21 including means for sensing the temperature of blood near the inlet of the blood sensing jacket and means for controlling the the temperature of the heating element in response to both the sensed inlet blood temperature and the sensed outlet blood temperature.
  - 24. The fluid warming device of claim 21 including means for turning off the electric blower if the sensed blood outlet temperature exceeds a predetermined level.
  - 25. The fluid warming device of claim 21 including means for turning off the electric blower and the electric heating element if the temperature of the blood exceeds a predetermined level.
  - 26. The fluid warming device of claim 24 including means for turning off the heating element if the sensed outlet blood temperature exceeds a predetermined level.
  - 27. The fluid warming device of claim 21 including a plurality of blood warming jackets and a plurality of the recesses for receiving the blood warming jackets, each of the recesses being bounded by closely spaced parallel major walls heated by transferring heat from the heated air to the heated major walls by the heat exchanging means.
  - 28. The fluid warming device of claim 27 wherein each of the blood warming jackets is supported by a peripheral frame to facilitate insertion of the blood warming jacket into the recesses of the blood warming device.
  - 29. The fluid warming device of claim 28 including means for operating on a signal produced by a temperature sensing element disposed in the blood warming jacket near the outlet thereof including an electronic control circuit producing first and second control signals and means for adjusting the temperature of the heating element in response to the first control signal and means for turning off the electric blower in response to the second control signal if the temperature of the outlet blood exceeds the predetermined level.
  - 30. The fluid warming device of claim 29 including means for converting the signal representative of the sensed blood outlet temperature to a digital number by means of an analog-to-digital converter, a microprocessor operating to repetitively read the digital output of the analog-to-digital converter, and operate upon the digital output to produce heater control signals, and means for repetitively adjusting the heater temperature in response to the heater control signals.
  - 31. The fluid warming device of claim 30 including means for operating the microprocessor in response to the digital output to generate blower speed control signals and means for repetitively adjusting the speed of the blower in response to the blower speed control signals.
  - 32. The fluid warming device of claim 31 including means for operating the microprocessor to generate digital readout signals and producing a digital readout representative of the outlet blood temperature in response to the digital readout signals.

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Current Assignee
Gordon M. Greenblatt
Original Assignee
Gordon M. Greenblatt
Inventors
Greenblatt, Gordon M.
Primary Examiner(s)
PASCHALL, MARK H

Application Number

US06/822,657
Time in Patent Office

659 Days
Field of Search

219/400, 219/497, 219/299, 219/494, 219/302, 219/501, 219/325, 219/499, 219/308, 219/506, 128/400, 604/113, 604/114, 422/46, 165/177, 165/102, 165/46, 165/100, 165/168-172
US Class Current

392/466
CPC Class Codes

A61M 2205/362 by gas flow

A61M 5/44 having means for cooling or...

Blood warming method and apparatus using gaseous heat exchange medium

First Claim

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Abstract

134 Citations

32 Claims

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Blood warming method and apparatus using gaseous heat exchange medium

First Claim

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Accused Products

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Abstract

134 Citations

32 Claims

Specification

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Solutions

Use Cases

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