An improved medical pad for contact thermal exchange with a patient includes a fluid circulation layer for containing a thermal exchange fluid circulatable therethrough, a first port and a second port for circulating the thermal exchange fluid in to and out of the fluid circulation layer, and a hydrogel layer interconnected to and extending across one side of the fluid circulation layer to define an adhesive surface for adherence to a patient's skin. The hydrogel layer comprises an ultra violet light-cured composition that includes a cross-linking copolymer in an amount of between about 15% to 30% by weight of the composition, water in an amount of between about 15% to 40% by weight of the composition, and glycerol in an amount of between about 25% to 35% by weight of the composition. The hydrogel layer is provided to have a thermal conductivity of at least about 1.9 ca/hr-cm-? C.

A system for cooling or heating a body part includes at least one bladder, a pump, a heat exchanger, a first fluid line in fluid communication with the heat exchanger and the at least one bladder, a second fluid line in fluid communication with the at least one bladder and the heat exchanger, a main reservoir and a separator. The heat exchanger is in fluid communication with the pump. The first fluid line is located downstream from the heat exchanger and the second fluid line is located downstream from the at least one bladder when the system is operating to cool or heat the body part. The separator is in fluid communication with the main reservoir and the pump and is located below the main reservoir to receive fluid under the influence of gravity from the main reservoir and to deliver fluid to the pump via gravity.

A device for exchanging heat with a subject having skin is provided. The device includes a heat exchanging member having a heat transfer surface configured to form a heat conducting interface with the subject's skin. The device further includes a substantially flexible sensing device disposed in the interface between the heat exchanging member and the subject's skin. The sensing device is configured to measure a parameter of the interface without substantially impeding heat transfer between the heat exchanging member and the subject's skin.

A method of manipulating a quick connect/disconnect system includes connecting a first coupling portion of a first connecting member to a fluid conductor and inserting a second coupling portion of the first connecting member within a third coupling portion of a second connecting member. The method further includes inserting the third coupling portion within a ring assembly which is rotatably coupled to the first coupling portion and engaging a mating feature on an external surface of the third coupling portion with a mating feature on an internal surface of the ring assembly. The method also includes rotating the ring assembly about the third coupling portion while the first mating portion is engaged with the second mating portion; and forcing the second coupling portion to move further within the third coupling portion by rotation of the ring assembly.

Thermal therapy systems, devices, and methods of using the same disclosed. A localized hypothermia of the pancreas with a delivery and placement procedure in the stomach of a patient comprising a cooling balloon system is disclosed that can be used for the treatment of pancreatitis in a patient. The cooling balloon system can have mechanisms for affecting the pancreas without impacting or inducing hypothermia in the patient in a systemic fashion. The localized hypothermia system can have a simplified delivery system and can be intended to reduce patient discomfort while reducing the metabolic activity of the inflamed pancreas of the patient.

Thermal therapy systems, devices, and methods of using the same disclosed. A localized hypothermia of the pancreas with a delivery and placement procedure in the stomach of a patient comprising a cooling balloon system is disclosed that can be used for the treatment of pancreatitis in a patient. The cooling balloon system can have mechanisms for affecting the pancreas without impacting or inducing hypothermia in the patient in a systemic fashion. The localized hypothermia system can have a simplified delivery system and can be intended to reduce patient discomfort while reducing the metabolic activity of the inflamed pancreas of the patient.

A far infrared film structure and a method of manufacturing the same are provided in this disclosure. The far infrared film structure includes a substrate, an oxide thin film, and an electrothermal film. The substrate has a metallic foil sheet and a plastic film overlappingly combined with each other. The oxide thin film is combined onto the metallic foil sheet and consists of an oxide gel formed by mixing an oxide powder and a sol. The electrothermal film is combined onto the plastic film, and the electrothermal film, the oxide thin film, and the substrate together constitute a flexible thin plate. Thus, the far infrared film structure is bendable to conform closely to the contours of a human body and also has a high content of the oxide powder. Therefore, the far infrared film structure is convenient to use and has a good far infrared emission rate.

A thermal control unit for controlling a patient's temperature includes a fluid outlet for delivering temperature-controlled fluid to a patient, a pump, a heat exchanger, and a controller that automatically pauses thermal treatment of the patient prior the patient reaching a target temperature. During the pause, the controller assesses a reaction of the patient and changes a temperature of the fluid only inside the thermal control unit if the patient is likely to reach the target temperature without further thermal treatment. However, if the patient is unlikely to reach the target temperature without further thermal treatment, the controller restarts the thermal treatment. The controller may pause thermal treatment again prior to reaching the target temperature and assess the patient's reaction. In some embodiments, the controller may selectively include and exclude a fluid reservoir in a circulation channel within the thermal control unit.

A cold compression device has a driving assembly, a tank, a wrap assembly, and a tube assembly. The driving assembly includes a water pump and an air pump. The wrap assembly has a wrap, a water pack in the wrap, and an air pack in the wrap and overlapped on the water pack. The tube assembly has a first tube, a second tube, a third tube, and a fourth tube. The first tube connects the tank and the water pump. The second tube connects the water pump and the water pack. The third tube communicates with the water pack and the tank. The fourth tube connects the air pump and the air pack. Thus, as the first tube is detachable from and put out of the tank, the water pump may draw air into the water pack, which discharges the water in the water pack thoroughly.

A thermal management system and a method of heating a water-surface load or sub-water load. The system includes an electrochemical power source which generates electrical power and heat as a byproduct or coproduct. The electrolyte contained in the electrochemical power source is configured to transport the heat that is generated by the electrochemical power source to at least one water-surface load or sub-water load.