Presented is a gel cap adapted to relieve headaches, migraine, headache, fever, stress, or similar medical conditions in users. The gel cap includes one or more chambers defined by one or more stretchable and flexible pieces of fabric, and filled with a temperature-variable substance. In use, one of the chambers substantially covers a frontal region of a user's head and a front face extending until the cheekbones of the user, and another chamber substantially covers a rear region of the user's head extending from parietal to occipital region. The chambers are isolated from each other by a region extending from mesh covers that attaches one chamber to the other chamber and substantially cover ears of the user. The chamber covering frontal region of the user's head and the front face includes a V shaped cut-out section conforming to the nose of the user.

An inflatable therapy band with pocket comprises a circular band configured to removably be secured about a head. The band comprises four pockets for an ice pack and four inflatable air bladders. The pocket for the ice packets and air bladders alternate about the length of the band. An air pump is provided on the band which is in pneumatic communication with the air bladders.

An inflatable therapy band with pocket comprises a circular band configured to removably be secured about a head. The band comprises four pockets for an ice pack and four inflatable air bladders. The pocket for the ice packets and air bladders alternate about the length of the band. An air pump is provided on the band which is in pneumatic communication with the air bladders.

Devices for therapeutic interaction with an Abreu brain thermal tunnel (ABTT) terminus. Such devices provide heat to or remove heat from the ABTT terminus, and may also provide heat to or remove heat from veins connected to the ABTT. Therapeutic devices for engaging with the ABTT terminus benefit from diagnostics obtained at the ABTT terminus, or from other locations on the body.

One variation of a method for fabricating a dermal heatsink includes: fabricating a substrate defining an interior surface, an exterior surface opposite the interior surface, and an open network of pores extending between the interior surface and the exterior surface; activating surfaces of the substrate and walls of the open network of pores; applying a coating over the substrate to form a heatsink, the coating comprising a porous, hydrophilic material and defining a void network; removing an excess of the coating from the substrate to clear blockages within the open network of pores by the coating; hydrating the heatsink during a curing period; heating the heatsink during the curing period to increase porosity of the coating applied over surfaces of the substrate; and rinsing the heatsink with an acid to decarbonate the coating along walls of the open network of pores in the substrate.

Headwear for cooling the neurocranium region of a user's head and thereby the user's brain. In particular, the headwear provides selective cooling to specific areas of the parietal region, the frontal region, the temporal region and the occipital region of the cranium associated with the drainage system of the brain following a traumatic injury.

A dressing system for cooling skin or a wound site on a subject comprises a dressing having a reservoir for holding a liquid. The dressing may be configured for placement proximate to a postoperative surgical wound site of the subject or on the facial area of the subject. The dressing system includes a cooling chamber external to the dressing configured to cool the liquid. The dressing system includes a pump configured to circulate the liquid between the cooling chamber and the reservoir. The dressing system may include a suction element for applying suction at, or proximate to, the dressing for removing sweat or wound drainage.

The invention relates to an device (1) for cooling and/or heating a body region, preferably a head region, comprising at least one thermally conductive skin contact material (2) and at least one Peltier element (3), wherein the Peltier element (3) is connected to the skin contact material (2), wherein a thermally conductive connecting element, in particular a thermally conductive film (5), and a heat dissipation element (12) are provided, wherein heat emitted via an outer side of the Peltier element (3) can be distributed to the heat dissipation element (12) via the connecting element.

Methods, systems and devices for enhancing sleep, including enhancing the quality of sleep, reducing sleep onset time, increasing total sleep time, treating insomnia, and/or treating other neurological disorders by non-invasive temperature regulation of the frontal cortex prior to and/or during sleep. Described herein are thermal applicators that include phase change materials and/or evaporative cooling, as well as headgear for securing the applicators comfortably against the appropriate region of the user's head.

The system includes a pump, a heat exchanger, a bladder, a thermometer, and a controller. The heat exchanger is in fluid communication with the pump. The bladder is configured to be placed over a carotid artery, and is in fluid communication with the heat exchanger. The thermometer is located with respect to the heat exchanger and configured to measure a temperature of fluid downstream from the heat exchanger. The controller is in electrical communication 28 with the thermometer and the heat exchanger. The controller is configured to 20 control power delivered to or flow through the heat exchanger such that the temperature of the fluid downstream from the heat exchanger measured by the thermometer is between 2 degrees C. and 10 degrees C. for between 10 minutes and 50 minutes.