The present invention relates to the use of a combination of a wound-rinsing solution and cold atmospheric plasma for treating wounds. The present invention further relates to a method for treating wounds, comprising rinsing the wound with a wound solution and treating the wound with cold atmospheric plasma.

A heat patch includes a dressing layer, a release layer, an adherence layer, and a heating layer. The dressing layer is combined with the release layer and the adherence layer. The heating layer is combined with the adherence layer. When the dressing layer is adhered to the user skin, the heating structure of the heating layer generates the heat which is transmitted to the dressing layer for achieving a hot compressing function.

The invention provides a cooling pad 110 for alleviation of pain or discomfort, especially in the perineum as a result of childbirth. The pad 110 has at least one chamber 116 containing a fluid (such as saline) for cooling. There is at least one aperture 126 for allowing passage of body fluid. The aperture 126 is located inboard of the chamber 116.

Aperture 126 is formed in a web 124.

Cooling pad 110 may be used alone or as part of an assembly, sandwiched between cover layer 130 and peel-off backing 132, and is intended to be placed in a freezer prior to use.

In one example, a therapy system is provided that includes an inner layer and an outer layer including first and second portions and disposed outside of the inner layer. A therapeutic device, such as a cold pack for example, is provided that is configured to be positioned inside the inner layer. The therapy system also includes an adjustable tightening mechanism connected to the first and second portions of the outer layer and operable to change a position of one of the first and second portions relative to the other of the first and second portions so as to adjust a magnitude of a compressive force exerted by the outer layer on an extremity of a user when the extremity is positioned within an opening defined by the inner layer.

The invention is a class of medical bandages that are effective for use in the treatment of various types of tissue burns, such as burns due to heat, chemicals, or sun exposure. The inventive bandages are comprised of a thin metal substrate in combination with a heat-sink. The inventive bandages incorporate a metal substrate (such as aluminum) having a burn-facing side for direct contact with the burn to draw heat away from the burn by conduction, and a heat-sink facing side opposite the burn-facing side for contact with a hydrogel to draw heat away from the metal layer by conduction. The thin aluminum layer and associated hydrogel heat-sink ensures flexibility and effective heat-transfer characteristics to rapidly cool a burn wound.

Provided herein is a system and method for mitigating premature light deactivation of light deactivated adhesive drapes. One aspect provides a system comprising a drape, a photosensitive adhesive layer, a release agent, and an optical fiber mesh layer configured as a light pipe, where the system is adapted to be coupled to a tissue site and released therefrom upon or after exposure to an external stimulus such as certain wavelengths of light. Another aspect includes a pipe light pipe, as an alternative to the optical fiber mesh layer. The systems may have a removable blocking layer to prevent the photosensitive adhesive from being exposed to deactivation wavelengths prematurely. Another aspect provides a method for application and removal of a drape using the light pipe to transport or route light to the drape to deactivate the photosensitive adhesive layer and promote easy, clean, and less painful removal of the drape.

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.

The invention provides a cooling pad 110 for alleviation of pain or discomfort, especially in the perineum as a result of childbirth. The pad 110 has at least one chamber 116 containing a fluid (such as saline) for cooling. There is at least one aperture 126 for allowing passage of body fluid. The aperture 126 is located inboard of the chamber 116. Aperture 126 is formed in a web 124. Cooling pad 110 may be used alone or as part of an assembly, sandwiched between cover layer 130 and peel-off backing 132, and is intended to be placed in a freezer prior to use.

Provided herein are compositions and methods for providing a combination of compression and temperature therapy. In particular, provided herein are compression bandages that transmit cooling or heating to an injury.

A garment using a phase change material that change phase from solid to liquid at a low or high temperatures situated within a gel matrix. The phase change material may be used after surgical procedures to reduce swelling, edema and bruising. The gel matrix allows the material of the present invention to maintain a conformable and elastic form at room temperature. This invention provides the novelty of a low or high temperature phase change material that is conformable to surfaces or volumes of varying geometry.