A temperature-regulating support includes a head part and a body part that are coupled to one another, at least one temperature-regulating layer, and a support layer. The at least one temperature-regulating layer has a battery as a power supply. The battery is arranged in a compartment of the support, and the battery is capable of being removed from the compartment and can be inserted into the compartment.

A temperature-regulating support includes a head part and a body part that are coupled to one another, at least one temperature-regulating layer, and a support layer. The at least one temperature-regulating layer has a battery as a power supply. The battery is arranged in a compartment of the support, and the battery is capable of being removed from the compartment and can be inserted into the compartment.

The present invention relates to a therapeutic device capable of alternatingly outputting a low-frequency wave or an ultrasonic wave and heat, and more particularly, the present invention includes: a heat output unit; and a low-frequency wave output unit which generates a low-frequency wave that is outputted alternatingly with heat outputted by the heat output unit, or includes: a heat output unit; and an ultrasonic wave output unit which generates an ultrasonic wave that is outputted alternatingly with heat outputted by the heat output unit. The present invention provides the therapeutic device capable of alternatingly outputting the low-frequency wave or the ultrasonic wave and the heat, which has the low-frequency wave output unit, the ultrasonic wave output unit, or the low-frequency wave output unit and the ultrasonic wave output unit, and the heat output unit, and maintains a temperature without problems by alternatingly outputting the low-frequency wave or the ultrasonic wave and the heat which are outputted by the output units, respectively, thereby improving user satisfaction.

The present invention relates to a therapeutic device capable of alternatingly outputting a low-frequency wave or an ultrasonic wave and heat, and more particularly, the present invention includes: a heat output unit; and a low-frequency wave output unit which generates a low-frequency wave that is outputted alternatingly with heat outputted by the heat output unit, or includes: a heat output unit; and an ultrasonic wave output unit which generates an ultrasonic wave that is outputted alternatingly with heat outputted by the heat output unit. The present invention provides the therapeutic device capable of alternatingly outputting the low-frequency wave or the ultrasonic wave and the heat, which has the low-frequency wave output unit, the ultrasonic wave output unit, or the low-frequency wave output unit and the ultrasonic wave output unit, and the heat output unit, and maintains a temperature without problems by alternatingly outputting the low-frequency wave or the ultrasonic wave and the heat which are outputted by the output units, respectively, thereby improving user satisfaction.

Disclosed herein are systems, pads, and methods thereof for targeted temperature management. A first pad can include a multilayered pad body and an inflatable cuff around the pad body. The pad body can include a conformable layer, a conduit layer over the conformable layer, and an insulation layer over the conduit layer. The conformable layer can include a conformable material configured to conform around a limb of a patient. The conduit layer can include one or more conduits configured to convey a fluid through the conduit layer. The insulation layer can be configured to insulate the conduit layer from an ambient temperature of an environment around the patient. The inflatable cuff can be configured to press the pad body against the limb of the patient when the inflatable cuff is inflated. Methods of the systems and pads can include methods of use.

Disclosed herein are systems, pads, and methods thereof for targeted temperature management. A first pad can include a multilayered pad body and an inflatable cuff around the pad body. The pad body can include a conformable layer, a conduit layer over the conformable layer, and an insulation layer over the conduit layer. The conformable layer can include a conformable material configured to conform around a limb of a patient. The conduit layer can include one or more conduits configured to convey a fluid through the conduit layer. The insulation layer can be configured to insulate the conduit layer from an ambient temperature of an environment around the patient. The inflatable cuff can be configured to press the pad body against the limb of the patient when the inflatable cuff is inflated. Methods of the systems and pads can include methods of use.

Disclosed herein are systems, pads, and methods thereof for targeted temperature management. In an example, a pad for targeted temperature management can include a pad body, a conduit system, one or more inlets, and one or more outlets. The pad body can be of a conformable material configured to conform to a body of a patient on the pad. The conduit system can be disposed in the pad body or an overlayer configured for placement over the pad body. The conduit system can include one or more conduits configured to convey a fluid through the pad body or the overlayer. The one-or-more inlets can be configured for charging the conduit system with the fluid, while the one-or-more outlets can be configured for discharging the fluid from the conduit system. Methods of the systems and pads can include methods of use. In another example, a deformable pad can be configured for receiving a neonatal patient.

An assembly for the thermal treatment and moisture treatment of physical conditions, the assembly including, a first thermal pack having a body, the body having a first face and a second face, the first face having a first protrusion. The assembly further includes a sleeve operatively arranged to receive the first thermal pack, the sleeve having a first surface. The assembly also includes a medicament pad arranged to be removably secured to the first surface of the sleeve.

An assembly for the thermal treatment and moisture treatment of physical conditions, the assembly including, a first thermal pack having a body, the body having a first face and a second face, the first face having a first protrusion. The assembly further includes a sleeve operatively arranged to receive the first thermal pack, the sleeve having a first surface. The assembly also includes a medicament pad arranged to be removably secured to the first surface of the sleeve.

A heating device for heating surgical tubes is disclosed herein. The heating device comprises a hollow housing configured to receive the surgical tubes therein. A heating element provided on the hollow housing. A first sensor is assembled on the heating element and configured to sense the temperature of the heating element. A controller is coupled to the heating element and the first sensor, wherein the controller is configured to receive an input associated with a required heating temperature from a user for heating the surgical tubes, and accordingly regulate the operation of the heating element based on the required heating temperature and an actual temperature sensed via the first sensor.