Treatment systems, methods, and apparatuses for improving the appearance of skin and other treatments are described. Aspects of the technology are directed to improving the appearance of skin by transcutaneously cooling and affecting nerve tissue so as to inhibit facial muscular contractions and thereby reduce dynamic wrinkling. A non-invasive nerve cooling device can be applied to the subject's head to attenuate nervous system signals to facial muscles.

A hands-free intraoral device for imparting a chilling treatment to a zone of intraoral tenderness within an oral cavity of a user. The hands-free intraoral device includes a carrier having a proximal end and a distal end. The distal end of the carrier is configured to be received within the oral cavity of the user and the proximal end of the carrier is configured to extend to a front and/or externally of the oral cavity of the user. A cooling element formed of a thermally conductive material selected to impart the chilling treatment to the zone of intraoral tenderness. A positioning element is operable to urge at least a portion of the cooling element in abutment with the zone of intraoral tenderness, providing for a hands-free positioning of the cooling element in abutment with the zone of intraoral tenderness.

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.

A temperature therapy system and a method for temperature control for such a temperature therapy system are disclosed. According to one embodiment, a temperature therapy system has a retention mechanism and a plurality of temperature modulation systems attached to the retention mechanism, wherein each of the plurality of temperature modulation systems comprises a thermoelectric cooler. The wearable personal temperature therapy system may have a plurality of temperature sensors and a plurality of conductive flags, wherein each of the plurality of conductive flags is adhered to a respective thermoelectric cooler and a respective temperature sensor. The wearable personal temperature therapy system may have a control module electrically coupled to each of the plurality of temperature modulation systems and each of the plurality of temperature sensors, wherein each of the temperature modulation systems is controlled based on a control voltage applied to the thermoelectric cooler of the respective temperature modulation system.

A temperature modulation assembly and a multi-layer retention mechanism for such a temperature therapy device are disclosed. According to one embodiment, a temperature modulation assembly for a temperature therapy device has a heat spreader and a mounting plate coupled to a bottom portion of a spacer, wherein the heat spreader is disposed between the mounting plate and the spacer. The temperature modulation assembly has a heatsink and a fan coupled to a top portion of the spacer, wherein the heatsink is disposed between the top portion of the spacer and the fan. The temperature modulation assembly further includes a heating and/or cooling device disposed within a central opening of the spacer, wherein the heating and/or cooling device is located between the heatsink and the heat spreader.

A cold therapy device for use in a water delivery system which is coupled to a mains water supply, the device includes a housing having an inlet for receiving water from a mains water supply, the housing includes at least one cooling module configured to reduce the temperature within the housing to cold therapeutic temperatures, so that, in use, when water is received therein from the inlet, it is cooled to cold therapeutic temperatures. The device further includes an outlet for delivering water from the housing to the user.

A mobile, self-contained cold therapy device having a container including an internal liquid or ice water tank, air and water pumps for driving air and water to a cold therapy pad with internal air and water bladders, wherein the pad is worn on an injured region of a user. The device includes an electronic controller for controlling air and water flow to and from the bladders, and a holder for supporting the container and worn on the user's body for portable, hands-free mobility while receiving cold therapy. Nipples are incorporated into a thermal conduction surface of the pad and reciprocated into the user's injured region by an air bladder to further reduce edema.

Systems, methods and devices for utilizing heat transfer parameters or energy expenditure of devices providing controlled hypothermia, normothermia or hyperthermia to detect changes, or the absence of changes, a patient's endogenous set-point temperature; which is not available during exogenously induced targeted temperature management. A particular embodiment would allow detection of fever in patients undergoing targeted temperature managed.

A system and method for providing Anal Perineal Prostate Vaginal Pelvic Floor contrast therapy are presented. The system may comprise a human interface device, fluid tubing, a pump, and a reservoir. The system may be operable to apply any combination of heat, cold, and pressurized compression to a therapy recipient and demonstrates particular utility for treating anal-prostate-perineal and vaginal areas. The system may be operable to impart a desired therapy temperature to the human interface device and to expand a membrane containing a therapy fluid. The expanded membrane may conform to the contours of a therapy site. Operation of the human interface device may be controlled using a remote-control device. The therapy recipient may be able to control the temperature of the fluid circulating through the membrane and may be able to control the pressure of the fluid within the membrane.

A plurality of methods and apparatus for managing deficiencies of the meibomian gland lipid production and delivery, including wearable fabrics configured with a matrix of micro- and nano-electromechanical materials, or composite fibres of yarn that are substantially made from carbon nanotubes, graphene, spider silk, natural silk, denim, cotton, metals, or combination thereof. Other methods and apparatus include infrared and ultrasound energy sources within a kit aimed at personalised therapies for improving overall health of the eyelids, while providing for adjunctive relief for associated dry eye symptoms. The management kit may comprise a wearable fabric or spectacle frame configured with infrared emitters and sensors, a handheld imaging device and software containing dosage and administration information coupled with information on improving eyelid hygiene which is reviewed and periodically updated using user-specific information.