The present invention provides a patch comprising a backing layer and an adhesive agent layer, wherein the adhesive agent layer is non-aqueous, the adhesive agent layer contains nonylic acid vanillylamide, terpene-based resin, rosin-based resin, styrene-isoprene-styrene block copolymer, and liquid paraffin, a mass ratio of a content of the terpene-based resin to a content of the rosin-based resin ((content of the terpene-based resin)/(content of the rosin-based resin)) in the adhesive agent layer is 0.45 to 1.3, and a mass ratio of a content of the styrene-isoprene-styrene block copolymer to a content of the liquid paraffin ((content of the styrene-isoprene-styrene block copolymer)/(content of the liquid paraffin)) in the adhesive agent layer is 0.45 to 1.2.

A patch system includes a patch applied to the body using an adhesive pad. The adhesive pad has a plurality of discrete sections of backing that are independently removed from the adhesive pad during application of the patch to a patient's skin or outerwear.

A package comprises a mask; and an inactive heater, wherein the mask includes at least one product layer having infused thereon at least one active, and wherein the inactive heater is located in or in proximity to the mask to transfer heat to the mask upon activation of the heater.

A system for delivering energy to an isolated part of a mammalian body includes an electrically powered patch and a self-supporting adhesive film. The patch has a major surface and comprises a matrix of at least one flexible, biocompatible material which is capable of conforming to the isolated body part. The self-supporting adhesive film has a first non-tacky surface arranged and configured for releasable attachment to the patch and a second tacky surface, opposite the first surface, for adhesive attachment to the isolated body part. The releasable attachment between the self-supporting adhesive film and the electrically powered patch has a lower strength than the adhesive attachment between the film and the isolated body part. Thus, during use the electrically powered patch is removable from the self-supporting adhesive film while leaving the self-supporting adhesive film adhered to the isolated body part.

A therapy pack system provides a reusable self-adhering therapy pack to skin. The therapy pack may be for example, an ice pack, heat pack or hot and cold pack. A sticky polymer gel is mounted onto a polymer casing of the therapy pack. The polymer gel is re-usable to attach the therapy pack to a user's skin at the site needing therapy. The polymer gel also buffers the skin from heat or freezer burn associated with applying a hot/cold pack to skin for an extended period. A chloride based compound may be added to the polymer gel to prevent the gel from freezing. In some embodiments, a non-woven fabric patch may support the polymer gel adhesive providing an additional layer of protection to the skin while simultaneously allowing the gel to self-adhere the therapy pack to the user.

Dry eye treatment apparatus and methods are described herein which generally comprise a patch or strip affixed to the skin of the upper and/or lower eyelids to deliver heat or other forms of energy, pressure, drugs, moisture, etc. (alone or in combination) to the one or more meibomian glands contained within the underlying skin. The treatment strip or strips include one or more strips configured to adhere to an underlying region of skin in proximity to one or both eyes of a subject such that the one or more strips allow for the subject to blink naturally without restriction from the one or more patches. Moreover, the one or more strips may be configured to emit energy to the underlying region of skin and where the one or more strips are shaped to follow a location of one or more meibomiam glands contained within the underlying region of skin.

An economical dual modality system can be manufactured and used in a method including the steps of assembling a system including a durable energy subsystem and a replaceable thermal subsystem, activating the replaceable thermal subsystem, attaching the system to a desired treatment area of a user's body, and activating the durable energy subsystem. The durable energy subsystem is arranged and configured to deliver energy, and the replaceable thermal subsystem is arranged and configured to be coupled to the durable energy subsystem arranged and configured to deliver thermal energy. The replaceable thermal subsystem delivers thermal energy to the desired treatment area at a predetermined temperature range for at least 30 minutes, and the durable energy subsystem delivers energy from the group consisting of non-visible light electromagnetic radiation, visible light radiation, electromagnetic field, microcurrent, electrical stimulation, iontophoresis, sonophoresis and combinations thereof independently of the thermal energy.

Apparatus and methods for producing thermal comfort using two point or multipoint heating or cooling that is applied to portion of a human body part to produce a warm or cool sensation over a larger area than that where the heating or cooling is directly applied. The body is induced to heat or cool itself by adjusting its neutral temperature setpoints. Increased warming perception from two-point, multipoint, and switching point stimulation causes downward adaptation in the neutral skin temperature of the user. Because spot heating and cooling sources operate at higher temperature differences from the skin than do area sources, they create a stronger perceived thermal sensation for the same power consumption. Point heating or cooling, rather than whole-area heating, can result in power savings and cost savings while improving occupant comfort.

A heating device is provided comprising: a wearable layer conformable to a part of a user's body; a heat source attached to the wearable layer for applying heat to a region of a user's body; a blood flow sensor attached to the wearable layer configured to detect a parameter indicative of blood flow in or adjacent to the region of the user's body and generate a signal indicative thereof; and one or both of: (i) a processor in electrical communication with the blood flow sensor for determining the blood flow in or adjacent to the region of the user's body based upon the signal; or (ii) a transmitter for transmitting the signal to a remote device.

A cooling system (10) for cooling at least one extremity, such as a finger or toe, or body part of a human is provided. The cooling system (10) comprises at least one malleable thermal conductive viscoelastic material (11), adapted to be formed into a homogenous body around and fully covering the at least one extremity or body part, thereby providing for a complete and continuous direct contact between the malleable thermal conductive viscoelastic material and the at least one extremity or body part. Moreover, the cooling system (10) comprises a cooling circuit (12) for providing cooling at least partly around said homogenous body of malleable thermal conductive viscoelastic material (11).