An apparatus for temperature controlling an endocavity such as the rectum during thermal therapy of nearby tissues is disclosed. In some aspects the apparatus is mechanically configured to best conform to the patient. In other aspects the apparatus is designed to eliminate gas bubbles from forming or accumulating in certain volumes that would interfere with the thermal therapy. In other aspects the apparatus is optimized for use in cooling the rectum during ultrasound thermal therapy of the prostate.

A thermal device includes an inflatable non-perforated blanket, a conduit structure, and a recirculating assembly. The inflatable non-perforated blanket is configured to transport warm air internally. The conduit structure is configured to provide conduit to transport the warm air externally to the inflatable non-perforated blanket. The recirculating assembly is configured to inflate the inflatable non-perforated blanket with the warm air and: (1) to cause the warm air to flow from the first port to the second port in a first direction, and (2) to recirculate the warm air through the conduit structure to flow from the second port to the first port in the first direction. The inflatable non-perforated blanket includes first and second sheets. The first sheet faces ambient air and has a first thermal conductivity. The second sheet faces the subject body and has a second thermal conductivity higher than the first thermal conductivity.

Methods for treating fluid overload in a subject comprise shifting fluids directly and non-invasively from an interstitial compartment of the subject to skin of the subject through controlled local sweating. Methods of the invention allow for removal of excess fluid from the interstitial compartment of the subject and treat fluid overload in the subject. Sweat stimulation systems comprise a chamber and first and second relative humidity sensors. The chamber is sized to fit around a body part of a subject, comprises an inlet and an outlet, and is configured such that air flows through the chamber from the inlet to the outlet. The first relative humidity sensor is operably located inside the inlet, and the second relative humidity sensor is operably located proximate the outlet.

A cooling tourniquet system (100) includes a cooling component (110) with a tourniquet (112) at a proximal end and a control component (130). The cooling component includes a cooling pad (120) configured to be wrapped about an extremity, and a cover (111) that wraps around the cooling pad. An inner surface of the cooling pad includes one or more sensors for detecting the temperature of the extremity. The tourniquet is configured to be applied to the extremity to stop blood flow distally from the tourniquet. The control component receives temperature data from the sensors, and controls the cooling pad based on the received data rapidly cooling the extremity at depth, without causing frostbite tissue damage. In one embodiment the control component circulates a chilled fluid with a time-varying temperature profile through passages in the cooling pad. In an embodiment the cover includes an air bladder that holds the cooling pad in contact against the extremity.

Aspects of the present disclose related to a system. The system includes a warming device having at least a first zone and a second zone and a sensor. The system also includes a controller that includes one or more processor circuits configured to receive a first sensor reading from the sensor corresponding to a first zone, wherein the first sensor reading corresponds to a first heat transfer rate. The one or more processor circuits are configured to determine whether the sensor reading is sufficient and increase a first heat transfer rate to a second heat transfer rate in the first zone in response to the sensor reading being insufficient.

Aspects of the present disclosure relate to a convective blanket that includes an air permeable upper sheet having a periphery. The convective blanket includes a lower sheet bonded to the upper sheet with a peripheral seal proximate to the periphery of the upper sheet to form an interior space therein between the upper and lower sheets. The convective blanket includes a wing portion partially surrounded by a portion of the peripheral seal and a body portion. Additional aspects relate to a system including the convective blanket and a method that uses the convective blanket.

The present disclosure describes a system for providing targeted, temperature regulated therapy to a user. The system includes a convective unit and a forced air controller, with the convective unit including a sleeve for securing to a desired portion of the user's anatomy. The convective unit is fluidly coupled to the forced air controller, which is operable to transport a thermally conditioned air stream to an inflatable chamber in the sleeve. The convective unit receives the air stream, inflates, distributes the typically warmed, pressurized air within the inflatable chamber, and emits the air through one or more air permeable surfaces for convective transfer of heat to the body of the wearer enveloped by the sleeve.

There is provided a device for insertion into a body cavity, the device includes an insertion member configured to be inserted into the body cavity, an expandable member coupled to the insertion member, the expandable member capable of being expanded to apply pressure onto tissue within the body cavity, a first member configured for storing a first endothermic reactant therein, and a second member configured for storing a second endothermic reactant therein. In particular, the first and second members are configured to, in a state of the device (e.g., compressed state), allow the first and second endothermic reactants to cooperate to effect an endothermic reaction to generate an endothermic product. Furthermore, the expandable member is configured to receive at least one of the first or second endothermic reactant and the endothermic product through a channel within the insertion member. There is also provided a method of fabricating a device for inserting into a body cavity.

A full body convective blanket has a head portion, a body portion and a foot portion. The head and foot portions each taper in a decreasing manner from a corresponding opposite side of the body portion to the head and foot ends, respectively, so that the blanket has a rectangular shaped body portion and head and foot portions that are shaped in the form of isosceles trapezoids. Two elongate openings are provided longitudinally along the body portion sandwiching a non-inflatable area. An opening is provided at the head portion of the blanket.

A mobile, self-contained cold therapy device having a container including an internal liquid or ice water tank, air and water pumps for driving air and water to a cold therapy pad with internal air and water bladders, wherein the pad is worn on an injured region of a user. The device includes an electronic controller for controlling air and water flow to and from the bladders, and a holder for supporting the container and worn on the user's body for portable, hands-free mobility while receiving cold therapy. Nipples are incorporated into a thermal conduction surface of the pad and reciprocated into the user's injured region by an air bladder to further reduce edema.