A portable emergency blanket for providing thermal insulation to a patient is disclosed including a cover that houses a first insulating portion, the first insulating portion being configured to insulate a patent's legs in use; and a second insulating portion, the second insulating portion being configured to insulate a patient's torso in use, and the second insulating portion is configured to provide greater insulation than the first insulating portion.

An emergency management system having an ice water immersion bag capable of rapidly cooling an overheated individual's body through its combination of elements, apertures, and capacity. An overheated individual is placed within the ice immersion bag, yet the individual's body may still be accessed in the event of a medical emergency through the use of one of the many openings presented throughout the bag. The openings otherwise remain sealed and waterproof to prevent the ice water from escaping the bag, further effectuating ice water immersion to rapidly cool the overheated individual.

A heat exchange module alone or part of a system including a control console. The module includes a channel assembly and a heat exchange stack attached thereto, and can be used to directly cool and/or heat tissue or skin. The channel assembly includes a liquid channel. The stack can include a pair of spaced plates with thermoelectric coolers exchangers, heat reflective layers, and a core composite layer which keeps the plates spaced. To provide flexibility of the module to better fit on round body parts the stack can include a thermally-conductive plate construction between the plates which has rotational flexibility axes in the X and/or Y directions between plate portions. Optionally the channel can include windows to which the plate portions are sealed. The heat exchange stack separately or together with the channel assembly can be secured in the thickness direction with mechanical securements such as sewing or tacking to also provide for greater flexibility.

A system that can be used to provide highly controlled thermal therapy and compression to both cool and heat a skin surface and a joint and surrounding tissue below the skin surface is provided. The system includes a joint conforming wrap; a power supply module for supply power to the joint conforming wrap and a cable operably coupling the wrap and the power supply module. The joint conforming wrap and power supply module include opposing thermoelectric modules. The joint conforming wrap is designed to provide heat transfer processes to the body of a patient to warm or cool the skin and a joint and surrounding tissue disposed under the skin.

A cooling system (1) for use in a non-invasive medical cooling process to cool at least one portion of the body of a person (2) by means of a cooling fluid flowing through a cooling pad (3), comprising a first pump 70, a fluid outlet conduit (20), a fluid inlet conduit (40 and; —a second pump (80) arranged to pump cooling fluid through a fluid bypass conduit (60) from the fluid inlet conduit (40) to the fluid outlet conduit (20), wherein—the cooling system (1) is arranged such that cooling fluid is transported from the tank (10) to the fluid outlet conduit (20) when the first pump (70) is operated and such that cooling fluid is transported from the fluid inlet conduit (40) to the fluid outlet conduit when the second pump (80) is operated.

Feedback-controlled pressure monitoring system for limb-stabilizing medical pressure splints are described herein. In one embodiment, a limb-stabilizing system, includes: a pressure splint; a pressure sensor operatively coupled with the pressure splint; a controller configured to receive a first signal from the pressure sensor and to send a second signal to a pump; and the pump operatively coupled to the pressure splint. The pump is configured to adjust a pressure of air inside the pressure splint based on the second signal received from the controller.

A system and method for providing Thermal contrast therapy are presented. The system may comprise a fluid membrane barrier, a human interface device (HID), fluid tubing, a pump, and a reservoir. The system may be operable to apply any combination of heat, cold, and pressurized compression, light energy, acoustic energy, and vibratory energy to a therapy recipient for treating anal-prostate-perineal and vaginal areas, as well as podological and other extremities. The system may be operable to impart a desired therapy temperature to the human interface device and to expand a membrane containing a therapy fluid. The expanded membrane may conform to the contours of a therapy site. Operation of the human interface device may be controlled using a remote-control device. The therapy recipient may be able to control the temperature of the fluid or gel, as well as reception of light energy, acoustic energy and vibratory pulsing energy to assist in treatment of one or more conditions.

Disclosed herein is a system, apparatus and method directed to an orientable and resizable targeted temperature management (TTM) pad. The system, apparatus and method pertain to a medical pad for exchanging thermal energy between a TTM fluid and a patient. The pad can include a fluid containing layer for containing the TTM fluid, a patient contact surface to facilitate thermal energy exchange with the patient, a central trunk structure, and at least two wings branching from the central trunk structure. The fluid containing layer can be configured for circulating the TTM fluid within the fluid containing layer. The patient contact surface can be disposed at least on part of the central trunk structure. The at least two wings can be configured to be wrapped around a portion of a body of the patient. The central trunk structure may be positioned beneath the patient. The wings may be trimmed, reducing the pad's size.

Disclosed herein is a system, apparatus and method directed to reducing patient contact area of a medical pad for exchanging thermal energy between a targeted temperature management (TTM) fluid and a patient. The system, apparatus and method pertain to a medical pad that includes a fluid containing layer for containing the TTM fluid and a patient contact surface. The fluid containing layer is configured for circulating the TTM fluid within the fluid containing layer. The patient contact surface defines a patient contact area to facilitate thermal energy exchange with the patient. The pad can be segmented into a main pad section and one or more foldable sections configured to be folded by a user, thereby reducing the patient contact area. The circulation of the TTM fluid within the fluid containing layer may be constricted by a fold of the one or more foldable sections while folded.

Cutaneous stimulation devices are provided. Aspects of the devices include a cutaneous stimulation module and a cutaneous association element configured to stably associate the module with a skin location. The cutaneous stimulation module may be an active or passive module. Also provided are methods of using the devices, e.g., in rehabilitation and/or pain mitigation applications.