A device comprising a heat-generating component that comprises an alkali metal is provided. The alkali metal in the presence of water at a point of contact of the device undergoes an exothermic reaction to generate heat in situ. The amount of heat generated is proportional to and/or limited by the amount (or moles) of water at the point of contact, and the heat generated is sufficient to achieve an increase in temperature at the point of contact to achieve a therapeutic or beneficial result. In one embodiment, the device is used for reducing sweat production in a subject suffering from excessive sweating or hyperhidrosis. In other embodiments, the device is used to substantially sterilize a surface or render a surface substantially aseptic.

The present disclosure generally relates to a textile (100) and a manufacturing method (200) thereof. The textile (100) comprises: a fabric body (102) formed from one or more types of yarns; a continuous channel (104) formed within the fabric body (102); and an insulated conductive element (106) disposed within the continuous channel (104), wherein the textile (100) is heatable in response to electrical current being conducted through the insulated conductive element (106).

An abdomen massaging system massages through selective application of heat, vibrations, and pressure the muscles of the abdomen for relieving menstrual pains and cramps. The system utilizes a massage belt that is wearable about the pelvis. The massage belt has a fastener, such as straps, that hold the body portion around abdomen. The massage belt is remotely regulated by a control unit or a remote controller to selectively generate vibration with a vibratory element, heat with a heat element, and pressure with a pressure element. These massaging components are controlled by a hands-free control unit that initiates a vibration signal, a heat signal, and a pressure signal to the massage belt. The heat element, vibratory element, and pressure element provide a perceptible stimulus to the pelvic area at predetermined times and intensities. The control unit regulates signals between a rest mode, a signal mode, a timer, and a speed control.

A treatment system delivers a breathing gas and frozen ice or other particles (FSP) to a bronchus of a lung of a patient in order to induce hypothermia. The breathing gas and the FSP are usually delivered through separate lumens. Clogging of an FSP lumen can be inhibited by heating and/or cooling of the lumen. The temperature of exhaled gases or a body temperature may be measured, and a controller can adjust the duration or rate at which the ice particles are delivered in order to control the patient's core temperature based on the measured temperature.

A treatment system delivers a breathing gas and frozen ice or other particles (FSP) to a bronchus of a lung of a patient in order to induce hypothermia. The breathing gas and the FSP are usually delivered through separate lumens. Clogging of an FSP lumen can be inhibited by heating and/or cooling of the lumen. The temperature of exhaled gases or a body temperature may be measured, and a controller can adjust the duration or rate at which the ice particles are delivered in order to control the patient's core temperature based on the measured temperature.

A heating device includes a heating unit and device electronics. The heating unit is configured to deliver heat to a user's body. The heating unit includes a substrate and a heating element supported by the substrate. The device electronics are coupled to the heating element and are configured to store a first heating profile that includes data indicating how power should be delivered to the heating element over a first period of time. The device electronics are configured to deliver power to the heating element according to the first heating profile. The device electronics are configured to wirelessly receive a second heating profile from an external computing device. The second heating profile includes data indicating how power should be delivered to the heating element over a second period of time. The device electronics are configured to deliver power to the heating element according to the second heating profile.

A device comprising a heat-generating component that comprises an alkali metal is provided. The alkali metal in the presence of water at a point of contact of the device undergoes an exothermic reaction to generate heat in situ. The amount of heat generated is proportional to and/or limited by the amount (or moles) of water at the point of contact, and the heat generated is sufficient to achieve an increase in temperature at the point of contact to achieve a therapeutic or beneficial result. In one embodiment, the device is used for reducing sweat production in a subject suffering from excessive sweating or hyperhidrosis. In other embodiments, the device is used to substantially sterilize a surface or render a surface substantially aseptic.

A device comprising a heat-generating component that comprises an alkali metal is provided. The alkali metal in the presence of water at a point of contact of the device undergoes an exothermic reaction to generate heat in situ. The amount of heat generated is proportional to and/or limited by the amount (or moles) of water at the point of contact, and the heat generated is sufficient to achieve an increase in temperature at the point of contact to achieve a therapeutic or beneficial result. In one embodiment, the device is used for reducing sweat production in a subject suffering from excessive sweating or hyperhidrosis. In other embodiments, the device is used to substantially sterilize a surface or render a surface substantially aseptic.

A method and apparatus for treatment of chronic kidney disease (CKD), particular diabetic nephropathy, are disclosed. The method comprises activation of adenosine A2a receptors in parenchymal and immune cells infiltrated into kidneys. The activation is performed by PEMF (pulsed electromagnetic field) stimulation applied locally to kidneys. Adenosine A2a signaling pathway is a potent anti-inflammatory and immuno-suppressive regulator that has been proven to attenuate inflammation and injury in diabetic nephropathy. Efficient activation of A2a receptors is achieved by applying electromagnetic field stimulation consecutively in 3 spatial dimensions. This allows attaining a significant increase in activation of A2a receptors in comparison with one-dimensional stimulation. Assistant thermal stimulation may be applied to increase expression of heat shock proteins (HSPs) in parenchymal cells. HSPs improve protein functions, protect cells from apoptosis and necrosis, increase metabolism, and symbiotically enhance effects of electric stimulation on CKD.

A system and method for providing a universal wrap that can apply a thermal pack to many different regions of a patient's body. The universal wrap is provided in a standardized form. The medical provider is provided with options to modify the standardized form in order to adapt the wrap to many different applications.