Disclosed herein are systems, pads, and methods thereof for targeted temperature management. In an example, a pad for targeted temperature management can include a pad body, a conduit system, one or more inlets, and one or more outlets. The pad body can be of a conformable material configured to conform to a body of a patient on the pad. The conduit system can be disposed in the pad body or an overlayer configured for placement over the pad body. The conduit system can include one or more conduits configured to convey a fluid through the pad body or the overlayer. The one-or-more inlets can be configured for charging the conduit system with the fluid, while the one-or-more outlets can be configured for discharging the fluid from the conduit system. Methods of the systems and pads can include methods of use. In another example, a deformable pad can be configured for receiving a neonatal patient.

A prosthetic socket cooling system and method includes a thermally conductive heat spreader including a curved shaped portion configured to maximize contact with a residual limb of a user. A heat extraction subsystem is coupled through a wall of the prosthetic socket and to the thermally conductive heat spreader and is configured to maintain a desired temperature inside the prosthetic socket.

A directable, portable appliance in combination with an adjustable set-point digital temperature controller for non-contact remotely monitoring infrared temperatures of a selected area of human skin and activating an electrical fan for directing cooling air over the selected skin areas of individuals experiencing episodes of thermal chaos, i.e., hot flashes.

An intra vascular temperature management catheter incudes a shaft through which working fluid can circulate to and from a proximal location on the shaft. The catheter extends from a connector hub. At least one heat exchange member is supported by a distal part of the shaft or other part of the catheter to receive circulating working fluid from the proximal location. A temperature sensor is supported on the catheter for generating a temperature signal representative of blood temperature to a control system. The temperature sensor includes first and second conductive leads having respective first and second distal segments on or in the catheter shaft. The first and second distal segments are arranged to be in thermal contact with blood flowing past the catheter when the catheter is disposed in a blood vessel of a patient. Also, the temperature sensor includes a joining body connected to proximal segments of the first and second leads. The joining body may be supported in the hub or in another location proximal to the first and second conductive leads.

A device (100) for alleviating itching is described. The device (100) includes a body (102) and a plurality of convex protrusions (106) being mounted on the body. In use, the plurality of convex protrusions (106) provides a plurality of contact points on a user's skin.

Present disclosure provides a cooling device with safety features and methods for controlling temperature of the cooling device for safe cooling of target surface.

Devices, systems and methods for controlling a patient's body temperature by endovascular heat exchange and/or surface heat exchange.

In one example embodiment, a system for stimulating tissue with the application of temperature-regulated fluid and negative pressure comprises a negative-pressure source adapted to provide negative pressure to a dressing. The system may further comprise a thermoelectric module thermally coupled to a first heat exchange chamber and a second heat exchange chamber and adapted to transfer heat between said heat exchange chambers. The thermoelectric module can be further adapted to maintain a temperature-regulated fluid fluidly coupled to the first heat exchange chamber and the dressing within a predetermined temperature range by adding heat to and extracting heat from the temperature-regulated fluid as it passes through the first heat exchange chamber.

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 can include an ultraviolet light-cured composition with a cross-linking copolymer, water, and glycerol. The hydrogel layer is provided to have a thermal conductivity of at least about 1.9 ca//hr-cm-° C.

In one instance, a recovery system for a user is presented that includes a battery-operated, flexible wrap that applies heat with both conductive heat and radiant heat. The recovery system has a control unit that ramps the temperature applied using primarily perceived conductive heat before leveling at a target temperature. Other systems and devices are presented.