A therapeutic splint for the treatment of one or more joint areas of a patient. The splint includes longitudinal housings extending along a longitudinal axis (L) and arranged parallel to this longitudinal axis (L); one or more modular cartridges with therapeutic effect suitable for being arranged in the housings according to the joint area (s) to be treated. The splint further includes at least one transverse and/or oblique housing extending along one or more transverse and/or oblique axes (O), respectively, with respect to the longitudinal axis (L) of the splint. The transverse and/or oblique housing is arranged so as to cover an area extending around a joint to be treated. The modular cartridge or cartridges are arranged in the transverse and/or oblique housings according to the joint area(s) to be treated.

A therapeutic device combines both hot and cold therapy to work simultaneously together. The therapeutic device has a first portion being made of a material capable of being heated to a first temperature and a second portion having a fastener capable of connecting to a cold pack having a second temperature. The application of both hot and cold to the site of an injury of a user stimulates blood circulation to an injured muscle with heat and reduces inflammation with cold to facilitate a faster and more efficient recovery process of the afflicted area.

A warm-cool beauty treatment device, comprising: a Peltier element of a plate shape having a first surface configured to generate heat, and a second surface configured to absorb heat; a heat sink includinga first section touching the first surface, and a second section connecting the first section thermally; a first plate connected to the first surface thermally via the heat sink; a second plate connected to the second surface thermally; a blower configured to produce air flow to release the heat of the second section; and a power supply configured to supply electric power to the Peltier element and the blower.

A thermal device includes a first thermal unit, a second thermal unit, and device electronics. The first thermal unit includes a first plurality of semiconductor elements sandwiched between first and second thermal unit substrates. The first thermal unit substrate exchanges heat with a user. The second thermal unit includes a second plurality of semiconductor elements sandwiched between third and fourth thermal unit substrates. The third thermal unit substrate exchanges heat with the user. The device electronics are coupled to the first thermal unit and the second thermal unit. The device electronics operate the first thermal unit in a heating state in which the first thermal unit transfers heat to the user via the first thermal unit substrate. The device electronics operate the second thermal unit in a cooling state in which the second thermal unit removes heat from the user via the third thermal unit substrate.

A system for delivering more than one energy waveform to a patient. The system comprising a first pair of electrodes and a second pair of electrodes adapted to be positioned on the patient and adapted to deliver energy to the patient, a stimulation pad comprising the first pair of electrodes and the second pair of electrodes, and a stimulation control unit in communication with the first and second pairs of electrodes. The stimulation control unit configured to combine a first energy waveform having a first frequency and a second energy waveform having a second frequency into a multiplexed signal, and deliver the multiplexed signal to the first pair of electrodes and the second pair of electrodes.

Systems and methods of use for guiding the flow of energy through a subject to stimulate tissue.

A thermal transfer device for providing thermal treatment to a patient. A patient support portion supporting and contacting the patient includes a first segment of a fluid flow path to receive a fluid from a fluid source. A flexible covering coupled and movable relative to the patient support portion defines a space therebetween that substantially conforms to the patient. The flexible covering includes a second segment of the fluid flow path. The fluid is circulated through an inlet, an outlet, and fluid flow path for supplying heat to or removing heat from the patient support portion and the flexible covering. A fluid circulation system with a controller may selectively adjust heat transfer from temperature zones defining the patient support portion. The thermal transfer device or a mattress cover may provide for controlling the microclimate, or conditions at or near the interface between the patient and the patient support portion.

An underbody warming system may include a skin contacting surface configured to be positioned on the skin of a user. A plurality of thermoelectric devices may be provided. A first thermoelectric device of the plurality of thermoelectric devices may have a first temperature to create a first temperature gradient between the skin and the first thermoelectric device. A second thermoelectric device of the plurality of thermoelectric devices may have a second temperature different from the first temperature to create a second temperature gradient between the skin and the thermoelectric device. A first flow path may be configured to allow heat to flow between the skin and the first thermoelectric device. A second flow path may be configured to allow heat to flow between the skin and the second thermoelectric device.

A thermal device includes a first thermal unit, a second thermal unit, and device electronics. The first thermal unit includes a first plurality of semiconductor elements sandwiched between first and second thermal unit substrates. The first thermal unit substrate exchanges heat with a user. The second thermal unit includes a second plurality of semiconductor elements sandwiched between third and fourth thermal unit substrates. The third thermal unit substrate exchanges heat with the user. The device electronics are coupled to the first thermal unit and the second thermal unit. The device electronics operate the first thermal unit in a heating state in which the first thermal unit transfers heat to the user via the first thermal unit substrate. The device electronics operate the second thermal unit in a cooling state in which the second thermal unit removes heat from the user via the third thermal unit substrate.

A temperature controlled blanket for providing dual warming and cooling zones. The temperature controlled blanket comprises a first layer of material, a second layer of material, and a seam, wherein the seam is disposed along a longitudinal axis of each layer of material, such that the seam defines a first portion and a second portion of the blanket. The first portion and the second portion each contain a panel comprising heating and cooling elements disposed between the first layer of material and second layer of material. The blanket further comprises at least one thermostat operably connected to each panel of the first portion and the second portion and a power source, wherein the at least one thermostat individually controls the heating and cooling elements of each panel. In an alternative embodiment, the first portion and the second portion of the second layer of material are made of two differing fabrics.