The invention relates to electrically-heatable plasters which comprise a self-adhesive skin contact layer, an electrically-conductive textile fabric in which electrically-conductive fibres are in contact with one another, as a heating element, and optionally at least one active substance, as well as to a method for production and the use of same for local heat therapy and/or transdermal application of active substances.

Disclosed herein is a method to enable a user to use a hypothermia system to cool a body part involved in cancer therapy or in brain trauma. The method enables the user to operate the hypothermia system by her- or himself and still be mobile. The hypothermia system comprises a conformal cap system, a thermally conductive liquid located between the body part to be cooled and the cap system, thermal transfer fluids, phase change materials, thermally insulated cooler, physical measuring devices, mechanical and electrical components, a ‘smart’ user interface device, a battery, and an uninterruptible power controller. The method allows a user to control the rate of and temperature of cooling down the body part, exhibits parameters associated with the process of cooling the body part, provides alerts if necessary, is portable and entirely self-managed. The hypothermia device is in communication with and can be controlled by an application installed on a smart device, such as a phone. The method of using the hypothermia system can help to eliminate hair loss caused by the side effects of certain chemotherapy treatments or to reduce the metabolic rate of ischemic tissue to prevent or minimize the severity of swelling.

A system to provide physical therapy in the form of heating, cooling and/or percussion, comprising: a device that contains a battery, a motor, and a switch to turn the device on or off or put the device in heating mode or put the device in cooling mode or put the device in percussion mode; wherein the device contains a motor and a pushing rod that supply the movement that results in percussion of a removable heating/cooling attachment and a removable percussion attachment; wherein the front of the device connects to the removable heating/cooling attachment that contains an electronic component to control heating or cooling and a cooling fan; wherein the removable heating/cooling attachment can be used for heating or cooling; wherein a housing shell for the heating/cooling attachment is made of plastic, foam, or metal, or any combination of plastic, foam and metal; wherein the front part of the heating/cooling attachment is made of metal that has the capability to be in contact with human skin in order to provide either heating or cooling at fixed or adjusted degrees that are optimal for physical therapy and/or blood circulation; wherein the removable heating/cooling attachment can be replaced by the removable percussion attachment that is used for percussion; wherein the removable percussion attachment can be placed on the skin of a user in order to provide percussion at fixed or adjusted speeds that are optimal for physical therapy.

A cooling system having a multitude of fluidly coupled cells for receiving a coolant is disclosed. The cooling system is characterized in that the cooling system has a flexible cover that covers the multitude of cells, an air gap between the flexible cover and the cells and an air pump for modifying the air gap.

A wearable device includes a housing to encompass a portion of a body part, biometric sensors coupled to the housing, a controller coupled to the housing and biometric sensors, a communication channel for communicating with external devices and a temperature regulator to controllably adjust a temperature of the housing. The wearable device is configured to provide remote controlled heating and cooling of the body part. The wearable device may include an evaporative heat exchanger and a thermoelectric heat pump. The wearable device may provide means for dissipating heat through vaporization of a substance or using an advective flux and phase transition.

A wearable temperature control assembly includes a temperature control module comprising a contact and a thermal element configured to heat or cool the contact. The assembly also includes a primary strap configured to receive the temperature control module and secure the contact against a subject. The assembly also includes a secondary strap configured to be connected to the primary strap. The secondary strap is configured to provide adjustment of a pressure between the contact and the subject when the primary strap secures the contact to the subject.

A wearable temperature control assembly includes a temperature control module comprising a contact and a thermal element configured to heat or cool the contact. The assembly also includes a primary strap configured to receive the temperature control module and secure the contact against a subject. The assembly also includes a secondary strap configured to be connected to the primary strap. The secondary strap is configured to provide adjustment of a pressure between the contact and the subject when the primary strap secures the contact to the subject.

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.

An eye treatment system can comprise a roller with a handle, a power source, control circuitry coupled to the power source, an axle, coupled to the handle, a heating element within the roller, a cylinder configured to rotate about the axle, a temperature sensor adjacent to a surface of the cylinder, with the temperature sensor spaced apart from the heating element, and one or more arms of the roller that couple a first end of the handle to the axle, wherein at least one of the one or more arms houses first wiring through which power is supplied from the power source to the heating element and houses second wiring connecting the temperature sensor to the control circuitry. The treatment system might also comprise an eye pad comprising a heat-retaining material and sized to be applied to an eyelid of a user when warmed. The eye pad could be gel-filled.

Methods and therapeutic devices with noninvasive means for improving brain function and treating senile dementia including Alzheimer’s disease are described. The noninvasive means is selected from electrical stimulation, heat stimulation, IR (infrared) radiation or their combinations. In some embodiments, the method and device utilize electrical current passed through acupuncture sites on the human head to achieve desired therapeutical effects.