Methods and devices are disclosed herein that generally involve applying thermal therapy to tissue (e.g., localized cooling or heating of tissue), and in particular applying thermal therapy to the spinal canal, tissue disposed within the spinal canal, and/or nerve roots extending from the spinal canal. In some embodiments, tissue can be cooled or heated by implanting a malleable or deformable thermal device in proximity to the targeted tissue. The thermal device can be left in place following surgery to facilitate application of post-surgical thermal therapy. In some embodiments, the thermal device can be removed post-surgery in a minimally- or non-invasive manner. The thermal device can be connectionless or can include penetrable regions, pre-attached tubing, or detachable connectors to facilitate application of cooling or heating means to the device. Methods are disclosed for utilizing thermal devices and for carrying out various treatment regimens that involve cooling or heating tissue using such devices.

A thermal control unit controls the temperature of a fluid delivered to one or more thermal transfer devices (e.g. thermal pads) in contact with a patient. The thermal control unit generates thermal data while being used to treat the patient and is adapted to receive thermal history data previously generated by a different thermal control unit in the treatment of that patient. Both the current and previous thermal data are displayable on the thermal control unit currently being used, thereby giving the caregiver a complete picture of the thermal history of the patient. The thermal control unit may also be adapted to transmit its thermal data, as well as the thermal history data previously received from the other thermal control unit, to still another thermal control unit. The thermal history data transfer may take place via a cable, wirelessly, by a portable flash drive, or by other means.

A patient temperature control system is disclosed that includes a heat exchange system configured to heat or cool a fluid, a circulating pump configured to circulate the fluid through the heat exchanger and at least one interconnectable pad and a control one or more processors and a non-transitory computer-readable medium having stored thereon logic. The logic, when executed by the one or more processors, causes operations including initiation of a targeted temperature management therapy, obtaining of measurements from fluid temperature sensors, a volumetric flow rate sensor and a patient temperature sensor, determining a level of patient heat generation based on one or more of the obtained measurements, and transmitting, via one or more wireless signals, data indicating the level of patient heat generation to a network device.

A multi-sectional therapy wrap can include a first wrap section joined to a second wrap section through a specialized junction that allows the wrap sections to overlap. The junction can also be divided into two portions to facilitate fluid flow between one wrap section and the other wrap section.

An eye massaging device comprises a main body, a water bag, a control unit, a cover, and a fixing ring. The temperature of the circulating water tank may be sensed by a thermal sensor and then feedback the temperature signal to a microprocessor. The microprocessor may control to drive a heating member to increase temperature and stop increasing temperature so as to effectively control the operation temperature and prevent from transient blindness resulting from being not able to effectively control the temperature.

A energizing bed, primarily comprising an enclosed space of the bed with a power control box and a door for entering and exiting. A heating apparatus is connected to the base board of the bed while an anion generator and oxygen generator are attached to the outside of the bed body. One of the bed ends has air holes for supplying anions and oxygen as well as being the side to mount the power control box, which will control the heating apparatus, anion generator, and oxygen generator. This allows the person to be treated to lie down on the bed and revitalize oneself by allowing cell metabolism to happen in its ideal environment.

Disclosed herein is a system, apparatus and method directed to patient temperature control. The system can include a control module configured to provide fluid that is heated or cooled, a heating and cooling system configured to couple with the control module and receive the fluid, and a temperature sensor coupled to the control module, the temperature sensor configured to measure a body temperature of a patient and provide signals to the control module that indicate the body temperature. The system can include a neurostimulation device coupled to the control module to provide neurostimulation to the patient. The control module can include logic, stored on non-transitory, computer-readable medium that, when executed by one or more processors, causes performance of operations including generation and transmission of first instructions to the neurostimulation device causing initiation of a first neurostimulation procedure.

Device and methods for enhancing visual appearance by muscle contracts are provided herein. The device may include a capacitor, a first applicator with a first magnetic field generating coil, a second applicator with a second magnetic field generating coil, a first switch to discharge energy from the capacitor to the first magnetic field generating coil to generate a first time-varying magnetic field, and a second switch to discharge energy from the capacitor to the second magnetic field generating coil to generate a second time-varying magnetic field. The magnetic field generating coils may be spaced apart from the casings to allow cooling media to flow. The time-varying magnetic fields may have a plurality of pulses with biphasic impulses, and when applied to a muscle in a body region, the muscle is contracted. The body region may be a buttock, an abdomen, arms, or thighs.

A catheter is disclosed comprising a catheter shaft including a proximal end and a distal end. A flexible framework can be connected to the distal end of the catheter shaft, wherein the flexible framework includes a plurality of heating electrodes and a temperature sensor. The plurality of heating electrodes can be configured to be heated to a first temperature, the first temperature being lower than which radio frequency ablation is performed. The plurality of heating electrodes can be configured to be heated to a second temperature, the second temperature being a temperature at which radio frequency ablation is performed.

A thermal pad for controlling a patient's temperature includes first and second chambers defined between interior and exterior layers. The first chamber circulates a temperature controlled fluid from a first inlet to a first outlet. The second chamber is in fluid communication with a port and a plurality of holes defined in the interior layer. Pressurized gas supplied to the second chamber is vented onto the patient to control the microclimate between the patient's skin and the thermal pad. An additional third chamber is provided in some embodiments that urges the thermal pad into contact with the patient when subjected to negative gauge pressure. In other embodiments, a negative gauge pressure chamber is allowed to partially inflate in order to urge the thermal pad into contact with the patient.