A therapeutic sleeve and techniques for using it are provided. A therapeutic sleeve may house a conduit carrying a constant stream of a chilled or heated working fluid throughout the sleeve. A heating element may evenly distribute heat throughout the sleeve. The sleeve may provide a precise temperature-controlled pocket that significantly improves treatment of pain or discomfort in the user's feet, head, or other body parts. A software application may enable a user to set or adjust a temperature, set timers, record sleep patterns, and view analytics or other data.

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.

An apparatus, a system, and a method for thermally comforting a patient include pneumatic, convective device providing thermal treatment for persons or animals, which is adapted for use in combination with a clinical garment such as a hospital gown, robe, bib, and other equivalents. The pneumatic convective device provides convective warming focused or directed primarily on the thorax or body core. The pneumatic convective device includes at least one inlet for being accessed through a clinical garment, a region in distribution with the inlet for distributing a stream of pressurized, thermally treated air, and a permeable member for emitting pressurized, thermally treated air from the distribution region.

This document describes implantable medical device systems and methods of using such devices for delivering therapy via temperature modulation. For example, this document describes medical device systems and related methods for the treatment of cardiac arrhythmias by delivering cooling to epicardial tissue. In some embodiments described herein, arrhythmias can be treated by an implantable system for painlessly terminating arrhythmias. The devices and methods provided herein permit prompt termination of atrial fibrillation almost immediately after an episode begins (to prevent persistence) and are effective irrespective of patient age and comorbidities.

A portable heating apparatus includes a top layer and a bottom layer connected to the top layer to form a cavity. An electric heating element is disposed within the cavity, and a temperature-retaining component, such as a gel layer, is affixed within the cavity adjacent to the electric heating element and adjacent to the top layer. A power cord is in electrical communication with the electric heating element and connectable to a power source to provide power to the electric heating element, the power cord detachable from the portable heating apparatus. The temperature-retaining component is capable of retaining heat generated by the electric heating element and creating a generally uniform distribution of heat across the top layer.

A gastrointestinal stimulation devices including a random stimulation delivery mechanism(s), configured to provide stimuli to a bodily tissue in a vicinity of the stimulation capsule, the provided random stimuli being characterized by a stimulation parameter, and a control circuitry in communication with said physical stimulation delivery mechanism, and configured to set and alter the stimulation parameter non-systematically, thereby altering the characterization of the stimuli provided to the bodily tissue. The algorithm may be patient tailored, and may have a learning machinery which responds to data being received from the patient.

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.

Approaches for portably and discreetly treating muscle cramping using one or more of a selectively controllable transcutaneous electrical nerve stimulation (TENS) unit and a heating element comprising resistive fabric. Cramping of the muscle may be detected with a surface electromyography (sEMG) unit. Artificial intelligence techniques may be applied using the sEMG signals and/or user input to identify effective treatment settings.

A method in accordance with a particular embodiment of the present invention includes increasing a concentration of a modified or unmodified saccharide within a subject's skin, applying an applicator to the subject's skin, and cooling the subject's skin via a heat-transfer surface of the applicator. The saccharide within the subject's skin can enhance a resistance of at least some cells within the subject's skin to damage associated with the cooling. A corresponding system includes the applicator, the saccharide, and an energy-delivery device. The energy-delivery device can be configured to apply ultrasound, optical, thermal, or another type of energy to the subject's skin to drive the saccharide into the subject's skin. The system can also include a penetration enhancer configured to enhance penetration of the saccharide into the subject's skin. The penetration enhancer can be applied with the saccharide or separately.

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.