A system and method for providing Anal Perineal Prostate Vaginal Pelvic Floor contrast therapy are presented. The system may comprise a human interface device, fluid tubing, a pump, and a reservoir. The system may be operable to apply any combination of heat, cold, and pressurized compression to a therapy recipient and demonstrates particular utility for treating anal-prostate-perineal and vaginal areas. The system may be operable to impart a desired therapy temperature to the human interface device and to expand a membrane containing a therapy fluid. The expanded membrane may conform to the contours of a therapy site. Operation of the human interface device may be controlled using a remote-control device. The therapy recipient may be able to control the temperature of the fluid circulating through the membrane and may be able to control the pressure of the fluid within the membrane.

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.

The technology disclosed in the present specification relates to a nanoparticle providing medium for hyperthemia, and the nanoparticle providing medium for hyperthemia according to an embodiment may be formed so as to capture nanoparticles in a region or one or more divided regions and block contact between the nanoparticles and a body.

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 kit for the assembly of a cryogenic chamber, including at least four wall modules including respective bodies of insulation; wherein the at least four wall modules include at least two end wall modules and at least two lateral wall modules; wherein the at least four wall modules include at least one vent wall module including a lumen surrounded by insulation, a connector extending from a surface of the vent wall module to the lumen, and a vent extending from the surface of the vent wall module to the lumen, wherein the connector is in fluid communication with the vent via the lumen; and an air chiller that is connectable to the connector of the vent module such that the air chiller is in fluid communication with the vent.

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.

The present invention relates to a system (100) for controlling a temperature, the system (100) comprising: a temperature sensor module (10), which is configured to measure a temperature value; a microcontroller module (20), which is coupled to the temperature sensor module (10) and which is configured to generate AC heating pulse signals by separate sequential code steps based on the measured temperature value; a coupling module (30) which is coupled to the microcontroller module (20) and which is configured to transform the generated AC heating pulse signals into transformed AC heating pulse signals using a transfer function which is substantially zero for DC signal components; and a heating module (40) which is coupled to the coupling module (30) and which is configured to generate heat according to the transformed AC heating pulse signals.

An esophageal liquid-supply catheter is capable of reducing the temperature transmission to the esophagus due to heating, cooling or the like by ablation, by efficiently delivering a liquid to the esophagus is disclosed. The esophageal liquid-supply catheter contains a tubular member, a plurality of arms with the proximal ends fixed to the distal end of the tubular member, and a distal end tip fixed to the distal end of the arms, wherein the plurality of arms can be deformed and expanded outward in the radial direction of the tubular member. A shaft may be inserted through the tubular member and fixed on the distal end to the distal end tip, and the arms can be expanded outward in the radial direction when the shaft is slid toward the proximal end side relative to the tubular member.

A handheld cryoanesthesia or analgesia device for cooling a target area on cutaneous membranes, mucous membranes, and tissue of the mucocutaneous zone having an elongated body and a thermoelectric cooling system disposed within the elongated body. The thermoelectric cooling system is configured to physically contact and thermally couple the target area of the cutaneous membranes, mucous membranes, and tissue of the mucocutaneous zone to induce cryoanesthesia or analgesia. The thermoelectric cooling system includes a thermally-conductive cold tip, a thermally-conductive cooling power concentrator thermally coupled to the cold tip, at least one Peltier unit module thermally coupled to the cooling power concentrator, a heatsink thermally coupled to at least one Peltier unit module, a power source, at least one thermal sensor, and a controller operably outputting a control signal to the Peltier unit module to maintain a predetermined temperature.