Disclosed herein is a system, apparatus and method directed to an expandable and conformable 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 includes an insulating layer, 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. The patient contact surface defines a first patient contact area to facilitate thermal energy exchange with the patient. One or more slits are arranged in at least the insulating layer of the pad to facilitate stretching the pad and conforming to a contour of a patient's anatomy. The stretching can expand the patient contact surface to a larger second patient contact area. The pad can further include a flexible fabric cover.

Disclosed herein is a system, apparatus and method directed to an expandable and conformable 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 includes an insulating layer, 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. The patient contact surface defines a first patient contact area to facilitate thermal energy exchange with the patient. One or more slits are arranged in at least the insulating layer of the pad to facilitate stretching the pad and conforming to a contour of a patient's anatomy. The stretching can expand the patient contact surface to a larger second patient contact area. The pad can further include a flexible fabric cover.

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.

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.

An electric heating pad with electrosurgical grounding comprising a heated underbody support, heated mattress or heated mattress overlay. In an illustrative embodiment the heating pad with electrosurgical grounding may include a flexible sheet-like heating element including an upper edge, a lower edge, and at least two side edges and a flexible sheet-like grounding electrode including an upper edge, a lower edge, and at least two side edges. A shell covering the heating element and grounding electrode and comprising at least two sheets (e.g., may be one sheet of material folded over to form two sheets) of flexible material, and a weld coupling the two sheets of flexible material together about the edges of the heating element and grounding electrode, wherein the weld is one of a RF weld, ultrasonic weld, or a heat bond, wherein the two sheets comprise PVC or urethane.

An electric heating pad with electrosurgical grounding comprising a heated underbody support, heated mattress or heated mattress overlay. In an illustrative embodiment the heating pad with electrosurgical grounding may include a flexible sheet-like heating element including an upper edge, a lower edge, and at least two side edges and a flexible sheet-like grounding electrode including an upper edge, a lower edge, and at least two side edges. A shell covering the heating element and grounding electrode and comprising at least two sheets (e.g., may be one sheet of material folded over to form two sheets) of flexible material, and a weld coupling the two sheets of flexible material together about the edges of the heating element and grounding electrode, wherein the weld is one of a RF weld, ultrasonic weld, or a heat bond, wherein the two sheets comprise PVC or urethane.

An improved medical pad for contact thermal exchange with a patient includes a fluid circulation layer for containing a thermal exchange fluid circulatable therethrough, a first port and a second port for circulating the thermal exchange fluid in to and out of the fluid circulation layer, and a hydrogel layer interconnected to and extending across one side of the fluid circulation layer to define an adhesive surface for adherence to a patient's skin. The hydrogel layer comprises an ultra violet light-cured composition that includes a cross-linking copolymer in an amount of between about 15% to 30% by weight of the composition, water in an amount of between about 15% to 40% by weight of the composition, and glycerol in an amount of between about 25% to 35% by weight of the composition. The hydrogel layer is provided to have a thermal conductivity of at least about 1.9 cal/hr-cm-° C.

An improved medical pad for contact thermal exchange with a patient includes a fluid circulation layer for containing a thermal exchange fluid circulatable therethrough, a first port and a second port for circulating the thermal exchange fluid in to and out of the fluid circulation layer, and a hydrogel layer interconnected to and extending across one side of the fluid circulation layer to define an adhesive surface for adherence to a patient's skin. The hydrogel layer comprises an ultra violet light-cured composition that includes a cross-linking copolymer in an amount of between about 15% to 30% by weight of the composition, water in an amount of between about 15% to 40% by weight of the composition, and glycerol in an amount of between about 25% to 35% by weight of the composition. The hydrogel layer is provided to have a thermal conductivity of at least about 1.9 cal/hr-cm-° C.

Disclosed herein is a sectional warming blanket for patient warming having a structure comprising a first layer of material forming a bottom layer with openings to allow a profusion of air through the bottom layer, a second layer of material forming an upper layer wherein the upper layer is coupled to the bottom layer via a plurality of seals to form a plurality of interconnected air passageways, and an inlet located on the upper or bottom layers. In an embodiment, the sectional warming blanket further comprises an opening configured to receive a coupling device for coupling the sectional warming blanket to an additional sectional warming blanket. In another embodiment, the sectional warming blanket further comprises at least one outline formed from a portion of the structure, such that a section can be removed from the blanket and the blanket is re-sealed by a bonding mechanism along its periphery.

Disclosed herein is a sectional warming blanket for patient warming having a structure comprising a first layer of material forming a bottom layer with openings to allow a profusion of air through the bottom layer, a second layer of material forming an upper layer wherein the upper layer is coupled to the bottom layer via a plurality of seals to form a plurality of interconnected air passageways, and an inlet located on the upper or bottom layers. In an embodiment, the sectional warming blanket further comprises an opening configured to receive a coupling device for coupling the sectional warming blanket to an additional sectional warming blanket. In another embodiment, the sectional warming blanket further comprises at least one outline formed from a portion of the structure, such that a section can be removed from the blanket and the blanket is re-sealed by a bonding mechanism along its periphery.