Disclosed herein is a medical pad for exchanging thermal energy between a targeted temperature management (TTM) fluid and a patient. The pad can include a central pad and a plurality of extension pads coupled with the central pad, where the extension pads extend away from right and left lateral sides of the central pad and where each of the central pad and the plurality of extension pads includes a fluid containing layer configured for circulation of a TTM fluid therein. A method can include removing a portion of the hydrogel liner and placing a remaining portion of the hydrogel liner between the hydrogel layer and the patient. The method can also include rotating and folding one or more of the extension pads to defeat the thermal energy exchange of the rotated and folded extension pads.

A breathable cooling pillow includes a polymeric foam layer having a top surface, a bottom surface, and sides extending between the top surface and the bottom surface and a polymeric gel cooling layer disposed directly on the top or bottom surface. The gel cooling layer is molded, at least in part, into the foam layer. A method of making a breathable cooling pillow is disclosed.

A flexible adhesive kinesiology/physio tape adapted to produce heat from the exothermic oxidation when exposed to air. The inventive tape includes a layer of porous material with iron and salt disposed therein. In the best mode, the layer is flexible and self-adhesive. A layer of plastic is included to inhibit oxidation prior to application and use. In a preferred embodiment, the inventive flexible adhesive tape includes a first layer of flexible adhesive high quality porous fabric; a second layer of flexible adhesive high quality porous fabric; and the layer of flexible exothermic material, sandwiched between the first and second layers. The third layer can be fabricated with cellulose, iron, water, activated carbon, vermiculite and salt or fabricated with a mixture of chemical salt in dry crystal form with water. Or any other chemical mixture that creates an exothermic reaction.

A warming device may include a batting layer having a phase change material. The batting layer may have a patient side and an upper side. A hot melt fabric adhesive may be applied to the patient side and upper side of the batting. A first fabric layer may be adhered to the hot melt fabric on the patient side of the batting. The first fabric layer may have a phase change material integrated coating. An insulation layer may be adhered to the hot melt fabric on the upper side of the batting. A second fabric layer may be coupled to the insulation layer.

Aspects of the present disclosure relate to a warming device that includes a clinical garment and a first pneumatic convective device. The clinical garment includes an inner surface for facing the patient and having an inner surface area. The clinical garment has a hemline and forms a longitudinal axis. The first pneumatic convective device can have an air-permeable layer having a pneumatic surface area, the pneumatic surface area is at least 25% of the inner surface area in a deployed state. The warming device can include a first inlet for admitting a stream of pressurized, warmed air into the first pneumatic convective device. The second end of the first pneumatic convective device extends past the hemline when in the deployed state, and, when the first pneumatic convective device is in a folded state, the second end extends no greater than 3 inches past the hemline.

The present invention provides a weighted article for assisting sleep, wherein the weighted article includes heating and cooling means. The weighted article is perforated by a series of channels, which contribute to the weight of the weighted article and allow the passage of a fluid that is continuously pumped throughout the weighted article while the weighted article is in use. The weighted article is connected to a control unit including means to thermoelectrical heat or cool the fluid such that a user of the weighted article is able to increase or decrease their body temperature.

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.

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.

The present invention comprises a heat transfer vest. The vest is configured to mount a plurality of heat transfer packs on its interior surface. In the preferred embodiments the appropriate portions of the interior surface are covered in a hook-compatible material. In these versions, the thermal transfer packs include one or more hook panels that are used to attach the packs to the interior surface.

A cold and hot compress pack includes a first sheet (110), a second sheet (120), a third sheet (130), a first weld seam (210), a second weld seam (220), a gas port (310) and at least two liquid ports (320). The first sheet (110), the second sheet (120) and the third sheet (130) are sequentially stacked one above another. The first weld seam (210) joins the first sheet (110), the second sheet (120) and the third sheet (130) at a same planimetric position. The second weld seam (220) surrounds the first sheet (110), the second sheet (120) and the third sheet (130) and joins them together at a same planimetric position. The second weld seam (220) is joined to one end of the first weld seam (210), thereby forming a first cavity (141) between the first sheet (110) and the second sheet (120) and a second cavity (142) between the second sheet (120) and the third sheet (130). The gas port (310) is arranged between any two of the liquid ports (320) so as to be spaced apart from both. The at least two liquid ports (320) are in communication with the second cavity (142), and the gas port (310) is in communication with the first cavity (141). An end of the first weld seam (210) joined to the second weld seam (220) extends between the gas port (310) and any one of the liquid ports (320) while being spaced apart from both. Also disclosed are a corresponding manufacturing method and a cold and hot compress circulation system.