A system for delivering thermal therapy to a treated body portion of a subject. The system preferably includes a therapy compress having at least one pocket or retainer, and at least one self-heating element configured for removable insertion within the at least one pocket of the therapy compress. In some example embodiments the therapy compress is in the form of an eye mask having first and second eye-covering lobes, each eye-covering lobe having a pocket for receiving a self-heating element. In some example embodiments the at least one self-heating element is air or oxygen activated, for example including a zinc-based self-heating material.

The present disclosure generally relates to intelligent garments that provide thermal regulation in a variety of environments. The garments may include different layers such as a hydrophobic layer in direct contact with a wearer's skin surface and saturated with an aqueous mixture, a spacer layer, a reflective layer, and an outer hydrophobic layer. The layers of the garment may work together to reduce the metabolic expenditure of the wearer in extreme environmental conditions or during demanding physical activity. A variety of sensors may be displaced throughout the garments so as to enable the collection of data associated with wearers as well as environmental conditions. Wearers may control the thermal balance and other properties of the garments as desired.

The present disclosure generally relates to intelligent garments that provide thermal regulation in a variety of environments. The garments may include different layers such as a hydrophilic layer in direct contact with a wearer's skin surface and saturated with an aqueous mixture, a spacer layer, a reflective layer, and an outer hydrophobic layer. The layers of the garment may work together to reduce the metabolic expenditure of the wearer in extreme environmental conditions or during demanding physical activity. A variety of sensors may be displaced throughout the garments so as to enable the collection of data associated with wearers as well as environmental conditions. Wearers may control the thermal balance and other properties of the garments as desired.

Heated socks used to keep a wearer's feet and toes warm. The heated socks include pockets for oxygen-activated chemical heating pouches which generate heat when exposed to air and via friction caused by the wearer when walking, jumping, or other activities and distributed through the sock from toe to ankle to heel. The heated socks are provided with extra cushioning on the bottom of the feet to aid in comfort for the wearer. The heated socks also keep the feet dry from moisture and perspiration.

The present invention relates generally to therapeutic articles comprised of carbonaceous blend textile materials comprising yarns having about 25 to 100 weight % carbonaceous fiber and about 0 to 75 weight % fiber made of polyester, nylon, rayon, lyocell, cellulose, wool, silk, linen, bamboo, m-aramid, p-aramid, modacrylic, novoloid, melamine, regenerated cellulose, polyvinyl chloride, antistatic fiber, poly(p-phenylene benzobisoxazole) (PBO), polybenzimidazole (PBI), polysulphonamide (PSA), and combinations thereof, or other fibers not listed that are capable of being made into yarn and textile fabrics that are knit, woven, or nonwoven, and wherein the fabric has a weight from about 3 oz/yd.sup.2 to about 20 oz/yd.sup.2. Also encompassed within this invention is a method for using therapeutic textile articles having carbonaceous blend textile materials of the present disclosure for treatment of humans and animals with developmental neurological disorders, central nervous system disorders, autoimmune disorders, cardiovascular disease, sleep disorders, anxiety disorders, pain management, and diabetes.

A method for manufacturing a belt, which molds a heating member 13 by 20 to 98 parts by weight selecting at least one of nonferrous metals constituted by tourmaline, bentonite, pozzolan, mica, red clay, zeolite, magnesium oxide, white clay, calcium, and silica, 0.1 to 30 parts by weight selecting at least one of A type Tio sol, Ag sol, and Zno having a particle size of 5 to 20 nm, graphene 01 to 10 parts by weight having a particle size of 0.20 to 2.25 nm, and functional metal colloidal 0.05 to 8 parts by weight having a size of 1 to 10 nm by selecting at least one of Ag, Au, Zn Pt, and Y, 20 to 98 parts by weight are combined by selecting at least one of the nonferrous metals and thereafter, ground into particle sizes of 500 to 1500 meshes.

A devise and method used to help reduce aches and pains to joints, muscles, and other body parts; helps to relieve swelling; provide support to joints and muscles. Comprising of a plurality of ridges 120 affixed to a flexible thermal sheet 110. Said ridges 120 produce an acupressure-like massage effect and the flexible thermal sheet 110 absorbs and reradiates heat between the device and skin producing a self-heating effect. The device can be sized for a particular application. A user places the device against his or her body and device is held in place by a method of user's choice.

The device provides a portable means of lowering human core body temperature by cooling the blood that circulates through glabrous skin. The device is fundamentally comprised of a container and a non-toxic, organic, phase-change material, such as oleic acid, selected because it transitions from a solid to liquid phase between 8 and 20 C., and preferably between 10 to 15 C. This phase-change material acts as a heatsink when placed in contact with glabrous skin thereby allowing the device to absorb heat from the circulating blood. The cooled blood then circulates through the body, lowering core body temperature. The status of the phase-change can be observed, often through transparent container walls, and the device is thermally recharged as needed.

In accordance with one embodiment of the present invention, the invention comprises a pliable enclosure containing a Phase Change Material (PCM) that maintains a nearly constant predetermined temperature while transmitting heat during phase change. The predetermined temperature is maintained which the PCM absorbs heat from the body of the patient, thus maintain the patient's body temperature at a nearly constant predetermined temperature for as long as the PCM material is transitioning phase. The pliable enclosure, which in an embodiment forms an enclosed volume, may be comprised of a shell which contains the PCM. The shell may be fabricated from polyethylene, polyurethane, or any other pliable material and may further comprise graphene covering on at least one of its surfaces to provide a tough exterior that is resistant to puncture by, for example, hypodermic needles, suture needles, scalpels, or other sharp instruments.

A system for delivering thermal therapy to a treated body portion of a subject. The system preferably includes a therapy compress having at least one pocket or retainer, and at least one self-heating element configured for removable insertion within the at least one pocket of the therapy compress. In some example embodiments the therapy compress is in the form of an eye mask having first and second eye-covering lobes, each eye-covering lobe having a pocket for receiving a self-heating element. In some example embodiments the at least one self-heating element is air or oxygen activated, for example including a zinc-based self-heating material.