A method of using an ice therapy machine involves replacing water with windshield washer fluid containing ethanol or ethylene glycol, and placing the main unit of the ice therapy machine, including the ice chest and pump, in a freezer to prevent the ice in the ice chest from melting. The freezer has been modified to include openings for passage of the fluid-circulating tubes of the ice therapy machine, and an opening for the power cord of the ice therapy machine, which supplies power to the pump. Alternatively, the door of the freezer may be replaced by an insulated panel having openings for the coolant circulating tubes and power cord. An on/off switch may be installed in the power cord so that the pump can be turned on and off without having to open the freezer door.

A method of using an ice therapy machine involves replacing water with windshield washer fluid containing ethanol or ethylene glycol, and placing the main unit of the ice therapy machine, including the ice chest and pump, in a freezer to prevent the ice in the ice chest from melting. The freezer has been modified to include openings for passage of the fluid-circulating tubes of the ice therapy machine, and an opening for the power cord of the ice therapy machine, which supplies power to the pump. Alternatively, the door of the freezer may be replaced by an insulated panel having openings for the coolant circulating tubes and power cord. An on/off switch may be installed in the power cord so that the pump can be turned on and off without having to open the freezer door.

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.

System and methods are described herein for generating an injection guide, which include receiving one or more digital images of a body region of an individual, the body region including one or more physical registration landmarks, generating at least one digital representation of the body region using the one or more digital images, the at least one digital representation including one or more digital registration landmarks corresponding to the one or more physical registration landmarks on the body region, adding one or more digitally registered injection sites to the at least one digital representation of the body region in an injection-treatment pattern, the one or more digitally registered injection sites registered relative to the one or more digital registration landmarks, and generating one or more output signals having information for controlling one or more controllable light-emitting elements to illuminate a location on a surface of the body region of the individual corresponding in location to at least one of the one or more digitally registered injection sites.

Systems and methods are described for detecting heat stroke and monitoring cooling treatment of heat stroke. The system includes a rectal temperature probe including a flexible length and an indicator positioned on the flexible length to indicate when the probe has been inserted to a target insertion depth. A controller is configured to receive a signal from the probe indicative of a sensed temperature and to determine whether heat stroke is likely based on the sensed temperature. When monitoring cooling treatment, a cooling rate is calculated based on periodically sensed temperatures and, based on the calculated cooling rate, the system indicates whether the heat stroke is being adequately treated or if the current treatment methods are insufficient.

A topical cooling compressive hemostasis wound healing device and methods thereof for affecting a percutaneous access site wound or an acute surgical wound. The device delivers and transports cooling to affect and control vasculature and musculoskeletal motions surrounding the injury site during the blood coagulation, hemostasis, and wound healing phases. The device has a viscoelastic and thermally conductive surface to deliver and transport an adjustable compressive pressure to resist outward blood flow, thus improving patient safety and clinical outcomes. The device is anatomically conforming and treats not only the specific injury site, but also its surrounding anatomical structures together as means to prevent unpredictable delayed hemostasis breach. The device provides comfort to the patient by allowing mobility upon wound healing, thus reducing back pain and strain resulting from being in a constrained position for a prolonged period of time which is known to cause additional medical events. The device reduces pain, inflammation, swelling, and scar formation on the injury site of a patient and promotes hemostasis, sustains hemostasis, and improves overall wound healing quality.

A topical cooling compressive hemostasis wound healing device and methods thereof for affecting a percutaneous access site wound or an acute surgical wound. The device delivers and transports cooling to affect and control vasculature and musculoskeletal motions surrounding the injury site during the blood coagulation, hemostasis, and wound healing phases. The device has a viscoelastic and thermally conductive surface to deliver and transport an adjustable compressive pressure to resist outward blood flow, thus improving patient safety and clinical outcomes. The device is anatomically conforming and treats not only the specific injury site, but also its surrounding anatomical structures together as means to prevent unpredictable delayed hemostasis breach. The device provides comfort to the patient by allowing mobility upon wound healing, thus reducing back pain and strain resulting from being in a constrained position for a prolonged period of time which is known to cause additional medical events. The device reduces pain, inflammation, swelling, and scar formation on the injury site of a patient and promotes hemostasis, sustains hemostasis, and improves overall wound healing quality.

Methods are provided herein for affecting a region of a subject's body, comprising exposing the region to a cooling element under conditions effective to cool subcutaneous adipose tissue in said region; and increasing the blood flow rate to the cooled tissue by exposing the tissue to an energy source. Methods are also provided for treating subcutaneous adipose tissue in a region of a subject's body, comprising exposing said region to a cooling element under conditions effective to cool said tissue; and exposing the tissue to an energy source to increase the blood flow rate to the cooled tissue, thereby stimulating reperfusion in, and/or causing an ischemia-reperfusion injury to, the cooled tissue.

Methods are provided herein for affecting a region of a subject's body, comprising exposing the region to a cooling element under conditions effective to cool subcutaneous adipose tissue in said region; and increasing the blood flow rate to the cooled tissue by exposing the tissue to an energy source. Methods are also provided for treating subcutaneous adipose tissue in a region of a subject's body, comprising exposing said region to a cooling element under conditions effective to cool said tissue; and exposing the tissue to an energy source to increase the blood flow rate to the cooled tissue, thereby stimulating reperfusion in, and/or causing an ischemia-reperfusion injury to, the cooled tissue.

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.