Disclosed herein is a medical pad for exchanging thermal energy between a targeted temperature management (TTM) fluid and a patient. The pad can include a central pad and a plurality of extension pads coupled with the central pad, where the extension pads extend away from right and left lateral sides of the central pad and where each of the central pad and the plurality of extension pads includes a fluid containing layer configured for circulation of a TTM fluid therein. A method can include removing a portion of the hydrogel liner and placing a remaining portion of the hydrogel liner between the hydrogel layer and the patient. The method can also include rotating and folding one or more of the extension pads to defeat the thermal energy exchange of the rotated and folded extension pads.

Disclosed is a medical pad for exchanging thermal energy between a targeted temperature management (TTM) fluid and a patient. The pad includes a fluid channel extending between a fluid inlet and a fluid outlet, and a bottom channel wall that is disposed between the fluid and the patient during use of the pad. The wall is formed of a material having a thermal conductivity, and the wall includes elements embedded within the wall. The elements are formed of a material having a greater thermal conductivity than the wall material so that a composite thermal conductivity of the wall that is greater than the thermal conductivity of the wall material alone. The thermal energy exchange between the fluid and the patient is defined in accordance with the composite thermal conductivity. The pad can include channel shapes and features that enhance the heat transfer convection coefficient of the fluid within the channel.

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.

The present invention relates to a heating and/or cooling assembly such as a heat pad. The assembly includes a plurality of modules articulated together by connection means so that the assembly can be manipulated by a user to adopt a desired profile. At least one of the modules contains a thermal store in the form of a solid, liquid or gel responsive to heating or cooling externally applied to the assembly so that the solid, liquid or gel is heated or cooled, respectively, and remains in a heated or cooled state for a prolonged period of time after the externally applied heating or cooling is removed.

This invention provides a thin and discreet coolant device, and single and multiple unit dispenser containers containing the same. The coolant device comprises a first packet being comprised of a waterproof or water-resistant material containing water therewithin and further comprising a fold and further adapted to have a selectively permanent connection between external and internal layers of said fold, such that upon applying a force to laterally extend the ends of said packet, a rupture of said first packet occurs allowing for the leakage of the water contained therewithin. The coolant device further comprises a second packet which encases said first packet, comprising an exterior and interior layer, wherein said interior layer is comprised of an absorbant material and said exterior layer is comprised of a waterproof or water-resistant material and wherein an amount of powdered urea is located within an interior of said second packet. Upon lateral extension of the sides of the second packet, a rupture of said first packet occurs allowing for the leakage of the water contained therewithin and its exposure to said urea located within said second packet, which exposure results in an endothermic reaction resulting in an outer surface of said second packet becoming cooler to the touch than an outer surface temperature prior to said rupture. Use of the coolant devices to provide cooling to a skin surface on demand is described, as well.

A temple massager including first and second flexible arcuate arms, each having a proximal portion connected to a handle and a distal portion, each of said distal portions having tip retention structure configured to capture and retain first and second pressure members; a selectively removable pressure member is disposed on each of the tip retention structures. The pressure members are fabricated from cold compress material and may include a compartment for containing a fluid or gel cold compress composition. A tension adjustment mechanism is disposed between the arcuate arms proximate the handle to adjust the spacing between the pressure members and thereby adjust pressure applied to a user's temples.

A therapeutic device combines both hot and cold therapy to work simultaneously together. The therapeutic device has a first portion being made of a material capable of being heated to a first temperature and a second portion having a fastener capable of connecting to a cold pack having a second temperature. The application of both hot and cold to the site of an injury of a user stimulates blood circulation to an injured muscle with heat and reduces inflammation with cold to facilitate a faster and more efficient recovery process of the afflicted area.

A fertility-enhancing cooling seat for lowering temperatures of human testicles so as to increase sperm quality and quantity. The cooling seat includes: a top flexible portion and a base portion; a bottom flexible portion coupled to the top flexible portion, the bottom flexible portion forming a seal with the base portion, portions of the bottom flexible portion and portions of the top flexible portion defining isolated cooling cells with cooling-cell volumetric spaces; a phase-change material located in the cooling-cell volumetric spaces, the phase-change material configured to change from a solid phase to a liquid phase at a first temperature and that is configured to change from a liquid phase to a solid phase at a second temperature that is lower than the first temperature. At least one of the isolated cooling cells defines a diameter that is larger than a diameter of the other of the cooling cells.

A therapeutic device combines both hot and cold therapy to work simultaneously together. The therapeutic device has a first portion being made of a material capable of being heated to a first temperature and a second portion having a fastener capable of connecting to a cold pack having a second temperature. The application of both hot and cold to the site of an injury of a user stimulates blood circulation to an injured muscle with heat and reduces inflammation with cold to facilitate a faster and more efficient recovery process of the afflicted area.

This invention provides a thin and discreet coolant device, and single and multiple unit dispenser containers containing the same. The coolant device comprises a first packet being comprised of a waterproof or water-resistant material containing water therewithin and further comprising a fold and further adapted to have a selectively permanent connection between external and internal layers of said fold, such that upon applying a force to laterally extend the ends of said packet, a rupture of said first packet occurs allowing for the leakage of the water contained therewithin. The coolant device further comprises a second packet which encases said first packet, comprising an exterior and interior layer, wherein said interior layer is comprised of an absorbent material and said exterior layer is comprised of a waterproof or water-resistant material and wherein an amount of powdered urea is located within an interior of said second packet. Upon lateral extension of the sides of the second packet, a rupture of said first packet occurs allowing for the leakage of the water contained therewithin and its exposure to said urea located within said second packet, which exposure results in an endothermic reaction resulting in an outer surface of said second packet becoming cooler to the touch than an outer surface temperature prior to said rupture. Use of the coolant devices to provide cooling to a skin surface on demand is described, as well.