A modular therapeutic eye mask is an apparatus that is used to help the user to sleep naturally and comfortably while receiving various therapeutic benefits. To do so, the apparatus includes a mask body, a support band, and a plurality of therapeutic inserts. The mask body is designed to be comfortably worn around the user's eyes to completely block any light from the surroundings. The mask body is also designed to retain the plurality of therapeutic inserts as well as other mask accessories that help the user to naturally sleep. The support band is designed to comfortably position the mask body and the plurality of therapeutic inserts retained within the mask body against the user's face. The plurality of therapeutic inserts includes several therapeutic inserts that provide various therapeutical benefits when at least one therapeutic insert is used with the mask body while the user is resting.

A temperature controllable wrap assembly that includes a wrap portion configured to be worn around a user’s body part, and at least a first temperature control module positioned on the wrap portion. The first temperature control module includes a housing, a controllable temperature element, a spreader member and at least a first finger spreader pivotably attached to the spreader member. The lower surface of the spreader member is positioned to contact the user’s body part. The controllable temperature element is configured to transfer thermal energy to an upper surface of the spreader member, and the spreader member is configured to conduct thermal energy to the first finger spreader.

A temperature controllable wrap assembly that includes a wrap portion configured to be worn around a user’s body part, and at least a first temperature control module positioned on the wrap portion. The first temperature control module includes a housing, a controllable temperature element, a spreader member and at least a first finger spreader pivotably attached to the spreader member. The lower surface of the spreader member is positioned to contact the user’s body part. The controllable temperature element is configured to transfer thermal energy to an upper surface of the spreader member, and the spreader member is configured to conduct thermal energy to the first finger spreader.

The present invention comprises a heat transfer vest. The vest is configured to mount a plurality of heat transfer packs on its interior surface. In the preferred embodiments the appropriate portions of the interior surface are covered in a hook-compatible material. In these versions, the thermal transfer packs include one or more hook panels that are used to attach the packs to the interior surface.

The present invention comprises a heat transfer vest. The vest is configured to mount a plurality of heat transfer packs on its interior surface. In the preferred embodiments the appropriate portions of the interior surface are covered in a hook-compatible material. In these versions, the thermal transfer packs include one or more hook panels that are used to attach the packs to the interior surface.

A medical device providing a combination of thermal and DVT therapies to a patient. The components, arrangement of components, function of the device as a whole, and methods of use of the device are all devised to maximize therapeutic effectiveness. Effectiveness in this context is measured by the ability to provide a controlled application of the recommended thermal treatment including time, temperature, compression, and number of cycles with specified cycle duration.

At least some aspects of the present disclosure feature a flexible duct for a convective device, comprising: an inflatable tubular structure in generally a tube shape when inflated comprising a flexible material and an air-guide device. The air-guide device is disposed on the tubular structure, where the air-guide device is configured to direct flow of inflation medium when the tubular structure is bent.

At least some aspects of the present disclosure feature a flexible duct for a convective device, comprising: an inflatable tubular structure in generally a tube shape when inflated comprising a flexible material and an air-guide device. The air-guide device is disposed on the tubular structure, where the air-guide device is configured to direct flow of inflation medium when the tubular structure is bent.

The present disclosure generally relates to intelligent garments that provide thermal regulation in a variety of environments. The garments may include different layers such as a hydrophobic layer in direct contact with a wearer's skin surface and saturated with an aqueous mixture, a spacer layer, a reflective layer, and an outer hydrophobic layer. The layers of the garment may work together to reduce the metabolic expenditure of the wearer in extreme environmental conditions or during demanding physical activity. A variety of sensors may be displaced throughout the garments so as to enable the collection of data associated with wearers as well as environmental conditions. Wearers may control the thermal balance and other properties of the garments as desired.

The present disclosure generally relates to intelligent garments that provide thermal regulation in a variety of environments. The garments may include different layers such as a hydrophobic layer in direct contact with a wearer's skin surface and saturated with an aqueous mixture, a spacer layer, a reflective layer, and an outer hydrophobic layer. The layers of the garment may work together to reduce the metabolic expenditure of the wearer in extreme environmental conditions or during demanding physical activity. A variety of sensors may be displaced throughout the garments so as to enable the collection of data associated with wearers as well as environmental conditions. Wearers may control the thermal balance and other properties of the garments as desired.