A wearable temperature control assembly includes a temperature control module comprising a contact and a thermal element configured to heat or cool the contact. The assembly also includes a primary strap configured to receive the temperature control module and secure the contact against a subject. The assembly also includes a secondary strap configured to be connected to the primary strap. The secondary strap is configured to provide adjustment of a pressure between the contact and the subject when the primary strap secures the contact to the subject.

Hypothermic treatment sacks are provided. A hypothermic treatment sack includes a top sheet that defines a first outer perimeter. The hypothermic treatment sack further includes a bottom sheet that defines a second outer perimeter. The first outer perimeter of the top sheet is removably coupled to the second outer perimeter of the bottom sheet such that a patient receiving cavity is defined between the top sheet and the bottom sheet. The top sheet and the bottom sheet include a weather resistant external layer, a heat reflective interior layer, and an insulation layer. The insulation layer is disposed between the external layer and the heat reflective interior layer.

A personal heating and cooling system comprising a chair, a pad comprising a length of flexible tubing and at least one heating element housed in an interior area of the pad, a pump configured to pump a volume of coolant (e.g., water) through the length of the flexible tubing, an intake trunk coupled to the pump and configured to deliver a volume of water from a reservoir (e.g., from a thermal insulated cooler) and a battery pack operably engaged with the pump and the at least one heating element. In certain embodiments, the pad may be integral to the chair and comprise seat and back portions of the chair. In certain embodiments, the pad may be removably coupled to the chair or other seating surface or may be laid flat.

A therapeutic device includes a substrate, a seal to couple the substrate to a surface, and at least one port defined in the substrate through which a therapeutic fluid is introduced between the surface and the substrate such that the therapeutic fluid directly contacts the surface.

A therapeutic cooling and/or compression system, configured to cool a body portion, comprises a conformal covering for covering the body portion configured to extract heat energy from the body portion, a sensor device within the conformal covering for sensing a parameter of the body portion, an actuator configured for changing an amount of heat energy extracted from the body portion, and a control unit configured for regulating the actuator responsive to control input from the sensor device. The system may be portable, enabling a patient to walk while undergoing treatment.

A medical device (10) is provided. The device comprises an elasticated textile body (12) having at least one opening (14,16) into which a limb may be inserted. The device further comprises at least one textile receptacle (17) welded to the elasticated textile body (12), the at least one receptacle containing a thermal storage medium.

A cryotherapy garment includes a number of receptacles that receive at least one pack of cold-store material. Each of the receptacles is formed by a closed fabric fold in the garment. Each of the receptacles has an opening for insertion of the pack of cold-store material. Each receptacle receives a respective pack, which is made of a semi-rigid material.

A thermal control unit controls the temperature of a fluid delivered to one or more thermal transfer devices (e.g. thermal pads) in contact with a patient. The thermal control unit generates thermal data while being used to treat the patient and is adapted to receive thermal history data previously generated by a different thermal control unit in the treatment of that patient. Both the current and previous thermal data are displayable on the thermal control unit currently being used, thereby giving the caregiver a complete picture of the thermal history of the patient. The thermal control unit may also be adapted to transmit its thermal data, as well as the thermal history data previously received from the other thermal control unit, to still another thermal control unit. The thermal history data transfer may take place via a cable, wirelessly, by a portable flash drive, or by other means.

A pneumatic compression assembly that includes a sleeve having an outer layer and an inner layer that defines a sleeve interior configured to receive a body part of a user, and at least a first vibration assembly configured to provide vibration to the body part of the user. A plurality of inflatable compartments are arranged longitudinally along the sleeve between the inner layer and the outer layer. The first vibration assembly includes a plurality of vibration motors positioned between the inner layer and the outer layer of the sleeve.

A pneumatic compression assembly that includes a sleeve having an outer layer and an inner layer that defines a sleeve interior configured to receive a body part of a user, and at least a first vibration assembly configured to provide vibration to the body part of the user. A plurality of inflatable compartments are arranged longitudinally along the sleeve between the inner layer and the outer layer. The first vibration assembly includes a plurality of vibration motors positioned between the inner layer and the outer layer of the sleeve.