초록 ▼

A cooling system includes a pressurized liquid refrigerant source having a liquid refrigerant and a cooling garment coupled to the liquid refrigerant source. The cooling garment defines chambers containing a heat transfer fluid. During operation, a user places the cooling garment in thermal communic

A cooling system includes a pressurized liquid refrigerant source having a liquid refrigerant and a cooling garment coupled to the liquid refrigerant source. The cooling garment defines chambers containing a heat transfer fluid. During operation, a user places the cooling garment in thermal communication with a body portion of a subject. As the cooling garment receives the liquid refrigerant from the pressurized source, the liquid refrigerant thermally contacts the heat transfer fluid and evaporates, thereby reducing the temperature of the heat transfer fluid. The heat transfer fluid, in turn, reduces the temperature of the body portion in thermal communication with the cooling garment. The heat transfer fluid acts to substantially evenly distribute cooling, as provided by the evaporation of the liquid refrigerant, to the body portion contacting the cooling garment to minimize localized “cold spots” within the chamber.

대표청구항 ▼

1. A cooling assembly comprising:a cooling garment configured to thermally contact a body portion, the cooling garment having a first wall and a second wall defining a chamber; a fluid inlet coupled to the cooling garment, the fluid inlet configured to couple to a pressurized liquid refrigerant sour

1. A cooling assembly comprising:a cooling garment configured to thermally contact a body portion, the cooling garment having a first wall and a second wall defining a chamber; a fluid inlet coupled to the cooling garment, the fluid inlet configured to couple to a pressurized liquid refrigerant source and deliver a liquid refrigerant from the pressurized liquid refrigerant source to the chamber; a vent coupled to the cooling garment and in fluid communication with the chamber, the vent configured to allow release of evaporated liquid refrigerant from the chamber as the liquid refrigerant evaporates within the chamber; and a heat transfer fluid within the chamber and in thermal communication with the liquid refrigerant, the heat transfer fluid configured to exchange heat between the liquid refrigerant and the body portion in thermal contact with the cooling garment as the liquid refrigerant evaporates within the chamber. 2. The cooling assembly of claim 1 wherein the cooling garment comprises an evaporator assembly in fluid communication with the heat transfer fluid, the evaporator assembly configured to receive the liquid refrigerant from the pressurized liquid refrigerant source via the fluid inlet.3. The cooling assembly of claim 2 wherein the evaporator assembly comprises a pressure relief valve configured to maintain a pressure within the evaporator chamber and control evaporation of the liquid refrigerant.4. The cooling assembly of claim 1 wherein the fluid inlet comprises a flow control valve.5. The cooling assembly of claim 1 wherein the cooling garment is chosen from the group consisting of a cap, a vest, trousers, a blanket, or a collar.6. The cooling assembly of claim 1 wherein the vent comprises a gas permeable membrane forming at least one of the first wall and the second wall of the cooling garment.7. The cooling assembly of claim 1 wherein the cooling garment comprises an iontophoresis assembly.8. A cooling system comprising:a pressurized liquid refrigerant source having a liquid refrigerant; and a cooling assembly having: a cooling garment configured to thermally contact a body portion, the cooling garment having a first wall and a second wall defining a chamber; a fluid inlet coupled to the cooling garment, the fluid inlet coupled to the pressurized liquid refrigerant source and configured to deliver the liquid refrigerant from the pressurized liquid refrigerant source to the chamber; a vent coupled to the cooling garment and in fluid communication with the chamber, the vent configured to allow release of evaporated liquid refrigerant from the chamber as the liquid refrigerant evaporates within the chamber; and a heat transfer fluid within the chamber and in thermal communication with the liquid refrigerant, the heat transfer fluid configured to exchange heat between the liquid refrigerant and the body portion in thermal contact with the cooling garment as the liquid refrigerant evaporates within the chamber. 9. The cooling system of claim 8 wherein the cooling garment comprises an evaporator assembly in fluid communication with the heat transfer fluid, the evaporator assembly configured to receive the liquid refrigerant from the pressurized liquid refrigerant source via the fluid inlet.10. The cooling system of claim 9 wherein the evaporator assembly comprises a pressure relief valve configured to maintain a pressure within the evaporator chamber and control evaporation of the liquid refrigerant.11. The cooling system of claim 8 wherein the fluid inlet comprises a flow control valve.12. The cooling system of claim 8 wherein the cooling garment is chosen from the group consisting of a cap, a vest, trousers, a blanket, or a collar.13. The cooling system of claim 8 wherein the vent comprises a gas permeable membrane forming at least one of the first wall and the second wall of the cooling garment.14. The cooling system of claim 8 wherein the cooling garment comprises an iontophoresis assembly.15. The cooling system of claim 8 further comprising a gel in thermal communication with the cooling garment and configured to thermally contact the body portion.16. The cooling system of claim 15 wherein the gel comprises an anesthetic agent.17. The cooling system of claim 11 further comprising a control console having a physiological sensor configured to contact a subject, the control console coupled to the flow control valve and configured to receive a signal from the physiological sensor and adjust the flow control valve to adjust cooling of the subject based upon the received signal.18. A method for altering a temperature of a subject comprising:thermally contacting a cooling garment with a body portion of the subject, the cooling garment having a first wall and a second wall defining a chamber, a fluid inlet coupled to the cooling garment, a vent coupled to the cooling garment and in fluid communication with the chamber, and a heat transfer fluid within the chamber; coupling the fluid inlet to a pressurized liquid refrigerant source; and activating the pressurized liquid refrigerant source to deliver a liquid refrigerant from the pressurized liquid refrigerant source to the chamber, the heat transfer fluid configured exchanging heat between the liquid refrigerant and the body portion in thermal contact with the cooling garment as the liquid refrigerant evaporates within the chamber and the vent allowing release of evaporated liquid refrigerant from the chamber as the liquid refrigerant evaporates within the chamber. 19. The method of claim 18 comprising:applying a heat transfer gel to the body portion of the subject; and placing the cooling garment in thermal communication with the gel. 20. The method of claim 18 comprising:coupling a physiological sensor with the subject; coupling a control console to a flow control valve associated with the fluid inlet of the cooling garment; and activating the control console to (i) receive a signal from the physiological sensor and (ii) adjust the flow control valve in response to the signal received from the physiological sensor to adjust cooling of the subject. 21. The cooling system of claim 8 further comprising:a housing coupled to the pressurized liquid refrigerant source; and a treatment device coupled to the housing, the treatment device chosen from the group consisting of a defibrillation device, a chest compression apparatus, or an intravenous fluid infusion device.