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.

Disclosed is an applicator device for an apparatus used in a localized cryotherapy treatment. The applicator device is configured, when positioned over a body area to be treated, to receive and to uniformly distribute across the entire area covered thereby a stream of medium, such as air, adjusted to a temperature equal to or above −40 degrees Celsius (° C.) and directed, at a predetermined speed, via the applicator to the area to be treated, whereby a cold-induced thermal shock response is developed in skin and an underlying tissue within the area covered by the applicator. Related apparatus and a method are further provided.

A control unit system. The system includes a control unit which includes a control unit charging interface, at least one magnet located proximate to the control unit charging interface, at least one actuator, a detachable manifold including at least one magnet, fluidly coupled to the at least one actuator, a pump connected to the at least one actuator for causing actuation thereof, and a control system for controlling the pump, wherein the control system controls the pump to actuate the at least one actuator at least in response to a signal received by the control system. The system also includes a recharging device configured to receive the control unit, the recharging device including a reed switch, wherein when the magnet in the control unit is located proximate to the reed switch, the switch is activated.

The invention provides a temperature-regulation apparatus with a segmented metal-containing layer. The metal-containing layer has an electrically insulating coating and a plurality of mutually electrically insulated planar metal segments to increase insulation by reducing thermal emissivity whilst minimizing the hazards of an electrically conductive layer. The temperature-regulation apparatus may comprise a blanket which may be used to actively supply temperature regulated air for regulating the temperature of a subject, in which case it includes at least one port, or it may be used to passively maintain the temperature of a subject, or it may comprise a temperature-regulation garment.

The invention relates to a treatment apparatus comprising an envelope that can be placed on or around a body part of a person such that the envelope has a positioning area (Z) for said body part of the person, the envelope being provided with an inlet (8) for a gaseous medium and an outlet for discharging the gaseous medium present in the envelope. According to the invention, the apparatus comprises a control system (11) for controlling the flow of the gaseous medium in order to direct the gaseous medium entering the envelope via the inlet (8) outside the positioning area (Z), and to homogenise the gaseous medium present in the envelope.

An infant incubator heat control device includes a temperature-detecting device providing chamber interior and incubator heater temperature measured values. A first mode of operation has an interior temperature set value, a temperature of the heater set value is calculated as a function of the interior temperature set value and of the chamber interior temperature measured value. A controlled variable is calculated for the heater as a function of the temperature of the heater set value and of the heater measured value. A second mode of operation calculates a temperature of the heater set value independently of the chamber interior temperature measured value. A controlled variable is calculated for the heater as a function of the set value for the temperature of the heater and of the heater temperature measured value.

Hyperthermia system for raising the body temperature of the body of an individual to a predetermined target temperature T.sub.b and for stabilizing the body temperature at the target temperature T.sub.b, including: a thermally insulated cabinet for receiving the individual, equipped with channeling means to channel fluids into the body of the individual; at least one thermal device to raise the body temperature of the individual, when placed inside said cabinet, and to subsequently maintain the target temperature T.sub.b of the individual; one or more devices for heating fluids to be channeled into the body of the individual via the channeling means; one or more sensors to monitor the temperature and/or heat flux of the individual; and a controller to control the at least one thermal means and the one or more devices for heating fluids. The sensors are connected to the controller to provide temperature values and/or heat flux values.

Examples of a module for housing unrelated electronic and electromechanical equipment for use during surgery. The module can include a lower section and a tower-like upper section. The lower section can house unrelated electronic and electromechanical equipment. The tower-like upper section can be located on top of the lower section. A water-resistant cowling can enclose at least a portion of the lower section and the tower-like upper section. A cartridge containing one or more ultraviolet-C producing lights can be protectively housed within the tower-like upper section. The cartridge containing one or more ultraviolet-C producing lights can be configured to emerge upward from a top of the tower-like upper section to substantially seat itself on the top of the tower-like upper section when activated allowing the ultraviolet-C light to disinfect the patient and staff-contacting upper surfaces of the equipment in the operating room.

Headphones include a pair of cups, each housing a speaker to be positioned over an ear of a user, a processor, a cooling mechanism disposed within each of the cups to regulate environmental conditions inside of the cups to match environmental thresholds provided by a virtual reality device displaying a virtual reality environment to the user, a temperature sensor and at least one additional environmental sensor disposed within each of the cups to monitor the environmental conditions inside the cups, the processor to subsequently analyze data associated with the sensors and compare the data to the environmental thresholds and the processor to selectively activate the cooling mechanism based on the comparison.

Examples of a module for housing unrelated electronic and electromechanical equipment for use during surgery. The module can include a lower section and a tower-like upper section. The lower section can house unrelated electronic and electromechanical equipment. The tower-like upper section can be located on top of the lower section. A water-resistant cowling can enclose at least a portion of the lower section and the tower-like upper section. A cartridge containing one or more ultraviolet-C producing lights can be protectively housed within the tower-like upper section. The cartridge containing one or more ultraviolet-C producing lights can be configured to emerge upward from a top of the tower-like upper section to substantially seat itself on the top of the tower-like upper section when activated allowing the ultraviolet-C light to disinfect the patient and staff-contacting upper surfaces of the equipment in the operating room.