A thermal control unit for controlling a patient's temperature includes a fluid outlet for delivering temperature-controlled fluid to a patient, a pump, a heat exchanger, and a controller that automatically pauses thermal treatment of the patient prior the patient reaching a target temperature. During the pause, the controller assesses a reaction of the patient and changes a temperature of the fluid only inside the thermal control unit if the patient is likely to reach the target temperature without further thermal treatment. However, if the patient is unlikely to reach the target temperature without further thermal treatment, the controller restarts the thermal treatment. The controller may pause thermal treatment again prior to reaching the target temperature and assess the patient's reaction. In some embodiments, the controller may selectively include and exclude a fluid reservoir in a circulation channel within the thermal control unit.

A thermal pad is adapted to be placed in physical contact with a patient and to receive temperature controlled fluid from a thermal control unit. The temperature controlled fluid circulates through the thermal pad and controls the patient's temperature. The thermal pad includes first and second sheets that are sealed together about their periphery to define a fluid chamber there between. A fluid inlet and fluid outlet are fluidly coupled to the fluid chamber. In some embodiments, a filter sheet is sandwiched between the first and second sheets and arranged such that fluid entering the fluid inlet must pass through the filter sheet before exiting out of the fluid outlet. A plurality of bonds may be included that seal the first and second sheets together at a plurality of locations. In some embodiments, a non-sheet filter is positioned within the fluid chamber and filters the circulating fluid.

The invention relates to a system for acquiring the vital status of animals, which comprises at least one first device for acquiring vital functions, and at least one signal transmission means, wherein the first device has at least two first and/or second sensors arranged at a distance from each other. The components of the system for acquiring the vital status of animals can be detachably connected with each other by connectors.

The invention further relates to a method for determining the vital status of animals, wherein the vital functions are acquired by a first device with at least two first and/or second sensors arranged at a distance from each other, wherein the acquired data are transmitted by at least one signal transmission means to a data processing device, and there processed and evaluated, and from the data processing device to an external output device, which outputs the vital status of animals.

The invention provides fluid warming apparatus comprising: a fan; a heater, the fan and the heater being configured to generate a heated fluid flow having a principle flow direction and an inhomogeneous temperature distribution in a distribution direction perpendicular to the said principle flow direction; and a plurality of temperature sensors offset from each other in the said distribution direction, wherein at least two of the temperature sensors are configured to measure temperatures of respective portions of the heated fluid flow having different temperatures.

The invention is broadly directed to a skin care apparatus comprising: a camera; a light device for emitting at least one of a blue, a green, a yellow and a red light; a vibration pad; a heating element; a heat sensor; a skin moisture sensor; an iontophoresis module; and a control processor configured to: operate the camera and the skin moisture sensor to perform a skin quality assessment of a user's skin, and operate any one or more of: the light device, the vibration pad, the heating element, the heat sensor, and the iontophoresis module to provide a bespoke skin treatment for the user's skin based on the skin quality assessment.

A detachable cooling apparatus comprises: a distal miming catheter forming a distal lumen that provides liquid as an input and a proximal miming catheter forming a proximal lumen that receives the liquid as an output, where the proximal miming catheter is connected to the distal running catheter. A focal hypothermia-inducing fluidics system comprises a thermal management and flow system (TMFS) that is operable to alter a liquid to a specific temperature and to regulate a flow rate, a closed-circuit flow system with a detachable cooling apparatus, a distal sensor array, a pump for moving the liquid through the TMFS, an inflow port that receives the liquid from the proximal running catheter, a plurality of capillary tubes that cool the liquid, and an outflow port that returns the liquid to the distal miming catheter.

A cold/hot compress strip device with a quick replaceable compress strip and an efficient cold/hot switch includes a host machine and a flexible compress strip fixable to an affected part on a human body surface, and the host machine can pump the cooled cold water from its container into the compress strip and circulate the cold water in the compress strip for cold compress, or can quickly discharge the cold water in the compress strip, and drive a heating film on the compress strip to generate heat for hot compress, so as to achieve an efficient cold/hot switch, and the compress strip can be replaced quickly as needed. The application of the cold/hot compress strip device is very simple and practical.

An electric heating pad for warming a patient includes a heated underbody support or heated mattress. The heated underbody support or mattress includes a heater assembly having a flexible sheet-like heating element, conductive bus bars attached at or near side edges of the heating element, and fabric side edge extensions attached to heating element side edges. The heated underbody support or mattress also includes a layer of polymeric foam positioned under the heater assembly and a shell, including at least two sheets of flexible material, covering at least a portion of the heater assembly and the layer of polymeric foam. When the heater assembly is wrapped around the top surface of the layer of polymeric foam, side edges of the heating element extend partially down the two side walls of the layer of polymeric foam and the conductive bus bars lie adjacent those two side walls.

A cold/hot compress device with efficient cold/hot switch and quick compress strip replacement includes a host machine and a flexible compress strip, and the host machine can pump the cooled water into the compress strip for a cold compress of an affected part on a human body surface and also can quickly discharge the cold water contained in the compress strip and drive a heating film to generate heat for a hot compress without the need of heating the cold water for an efficient cold/hot switch. The flexible compress strip can be replaced quickly as needed, and its application is very simple and practical.

A temperature therapy system and a method for temperature control for such a temperature therapy system are disclosed. According to one embodiment, a temperature therapy system has a retention mechanism and a plurality of temperature modulation systems attached to the retention mechanism, wherein each of the plurality of temperature modulation systems comprises a thermoelectric cooler. The wearable personal temperature therapy system may have a plurality of temperature sensors and a plurality of conductive flags, wherein each of the plurality of conductive flags is adhered to a respective thermoelectric cooler and a respective temperature sensor. The wearable personal temperature therapy system may have a control module electrically coupled to each of the plurality of temperature modulation systems and each of the plurality of temperature sensors, wherein each of the temperature modulation systems is controlled based on a control voltage applied to the thermoelectric cooler of the respective temperature modulation system.