A hands-free intraoral device for imparting a chilling treatment to a zone of intraoral tenderness within an oral cavity of a user. The hands-free intraoral device includes a carrier having a proximal end and a distal end. The distal end of the carrier is configured to be received within the oral cavity of the user and the proximal end of the carrier is configured to extend to a front and/or externally of the oral cavity of the user. A cooling element formed of a thermally conductive material selected to impart the chilling treatment to the zone of intraoral tenderness. A positioning element is operable to urge at least a portion of the cooling element in abutment with the zone of intraoral tenderness, providing for a hands-free positioning of the cooling element in abutment with the zone of intraoral tenderness.

A rapid contrast therapy system can provide cold, heat/hot/warm (hereafter referred to as “hot”), and/or rapid contrast therapy, which involves rapidly alternating between cold therapy and hot therapy. The system can circulate cold or hot fluid, such as water, through a hose, into a therapy wrap, and then back to the fluid reservoirs of the system. The system can utilize a vapor compression system or other chiller technology to cool the cold water reservoir, and immersion heaters can be used to heat the hot water reservoir.

A method, including receiving diagnostic information, relating to a potential traumatic brain injury of a person; based on the received diagnostic information, determining a Glascow Coma Scale for the person; upon determining that the Glascow Coma Scale is above a threshold value, instructing use of a cooling system to manage a temperature of the person's head, wherein the cooling system includes: an insulated cap having one or more fluid conduits extending through the cap; a cooling control unit, a fluid line disposed between the cap and the cooling unit that tethers to cap and the cooling unit to one another; and one or more temperatures sensors configured to measure a temperature of the person's head.

A thermal accessory controller for controlling the temperature of a thermal accessory. The thermal accessory controller includes a liquid reservoir for storing a glycol-based liquid, a heating component in liquid communication with the liquid reservoir for heating the glycol-based liquid, and a cooling component for cooling the glycol-based liquid. The thermal accessory controller includes an input conduit that provides a liquid path for the glycol-based liquid from the thermal accessory controller to the thermal accessory and an output conduit that provides a liquid path for the glycol-based liquid from the thermal accessory to the thermal accessory controller. The thermal accessory controller also includes a first liquid pump in liquid communication with the input conduit and the output conduit and configured to pump the glycol-based liquid through the thermal accessory, the liquid reservoir, and the heating component.

A recirculating warm air system configured to connect to an air inflatable product is provided. The system includes a first chamber and a second chamber. The first chamber includes a first air inlet and a first valve located at the first air inlet. The second chamber includes a second valve located between the first chamber and the second chamber, an air outlet, and a first hose connected to the air outlet. The second chamber further includes an air blower and a heater located between the air blower and the air outlet. The second chamber includes a second air inlet, a third valve located at the second air inlet, and a second hose connected to the second air inlet. The first hose and the second hose are configured to connect to the air inflatable product. The system further includes a processing unit configured to control elements of the system.

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 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 fluid warming device for warming fluids and delivering the fluids to a patient comprises an electrical heating component, a temperature sensor, and a control unit. The electrical heating component warms fluid passing through a fluid-carrying tube and may be positioned along the fluid-carrying tube at a desired location or embedded in the fluid-carrying tube while the control unit is positioned such that the display and user inputs are accessible to a caregiver. The control unit activates the electrical heating component until the fluid-carrying tube is warmed to a desired temperature within a Thermal Neutral Zone (TNZ) as sensed by the temperature sensor.

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.

The dry-immersion bed of the present invention is suitable for intensive care units (ICUs) and fulfills the function of providing treatment for diseases such as capillary leak syndrome. The dry immersion bed fulfills the function of recovering cardiovascular physiology by normalizing the systemic distribution of water, albumin and electrolytes, and improving lymphatic drainage, venous return, cardiac output, cell metabolism and immunity.