Provided herein is a system and method for coupling a wearable therapy system to a dressing and detaching the wearable therapy system from the dressing. One aspect provides a system including a drape with a switchable adhesive layer and a therapy system adhered to the drape via the switchable adhesive layer. The therapy system includes one or more radiation sources that can emit radiation wavelengths (e.g., light or electromagnetic waves) to impinge upon the adhesive and deactivate the adhesive when it is desired to remove the therapy system from the drape.

This disclosure includes apparatuses for minimizing scar spread and reducing risk of wound dehiscence and related methods. Some of the apparatuses include a flexible first strip and a flexible second strip, the first and second strips configured to be coupled to a patient's back on opposing sides of a wound and a substantially inelastic and flexible layer of material configured to be directly coupled to the first and second strips with the layer in tension to resist separation of the first and second strips, where the layer is configured to be removably coupled to at least one of the first and second strips. In some of the apparatuses, the layer is configured to be removably coupled to each of the first and second strips. In some of the apparatuses, the layer is non-removably coupled to and/or is unitary with at least one of the first and second strips.

Embodiments disclosed herein are directed to negative pressure treatment systems and wound dressing systems, apparatuses, and methods that may be used for the treatment of wounds. In particular, some embodiments are directed to improved wound dressings comprising an obscuring layer that may hide fluid contained therein. Some embodiments may further comprise one or more viewing windows disposed therethrough so as to enable monitoring or examination of fluids contained therein.

Systems, kits, methods of manufacturing, and a sealing member for creating a sealed space are described. The sealing member can include a film layer and a first adhesive layer coupled to the film layer. The sealing member can also include a second adhesive layer coupled to the first adhesive layer. A plurality of apertures may extend through the second adhesive layer. Each aperture can expose at least a portion of the first adhesive layer through the second adhesive layer. A plurality of polymer particles may be disposed in the first adhesive layer. The polymer particles can be configured to dissolve in response to interaction with a switching solution.

Apparatuses for minimizing scar spread and reducing risk of wound dehiscence and related methods. Some of the apparatuses include a flexible first strip and a flexible second strip, the first and second strips configured to be coupled to a patient's back on opposing sides of a wound and a substantially inelastic and flexible layer of material configured to be directly coupled to the first and second strips with the layer in tension to resist separation of the first and second strips, where the layer is configured to be removably coupled to at least one of the first and second strips. In some of the apparatuses, the layer is configured to be removably coupled to each of the first and second strips. In some of the apparatuses, the layer is non-removably coupled to and/or is unitary with at least one of the first and second strips.

Provided herein is a system and method for coupling a wearable therapy system to a dressing and detaching the wearable therapy system from the dressing. One aspect provides a system including a drape with a switchable adhesive layer and a therapy system adhered to the drape via the switchable adhesive layer. The therapy system includes one or more radiation sources that can emit radiation wavelengths (e.g., light or electromagnetic waves) to impinge upon the adhesive and deactivate the adhesive when it is desired to remove the therapy system from the drape.

The invention is a class of medical bandages that are effective for use in the treatment of various types of tissue burns, such as burns due to heat, chemicals, or sun exposure. The inventive bandages are comprised of a thin metal substrate in combination with a heat-sink. The inventive bandages incorporate a metal substrate (such as aluminum) having a burn-facing side for direct contact with the burn to draw heat away from the burn by conduction, and a heat-sink facing side opposite the burn-facing side for contact with a hydrogel to draw heat away from the metal layer by conduction. The thin aluminum layer and associated hydrogel heat-sink ensures flexibility and effective heat-transfer characteristics to rapidly cool a burn wound.

Systems, kits, methods of manufacturing, and a sealing member for creating a sealed space are described. The sealing member can include a film layer and a first adhesive layer coupled to the film layer. The sealing member can also include a second adhesive layer coupled to the first adhesive layer. A plurality of apertures may extend through the second adhesive layer. Each aperture can expose at least a portion of the first adhesive layer through the second adhesive layer. A plurality of polymer particles may be disposed in the first adhesive layer. The polymer particles can be configured to dissolve in response to interaction with a switching solution.

A wound dressing is provided that includes at least a support including a thin pliable film with a top face and a bottom face, a pressure-sensitive adhesive layer applied to at least a portion of the bottom face of the thin pliable film, a protective layer applied detachably to the pressure-sensitive adhesive layer opposite the support and an additional layer either in the form of a uniform layer such as a film, or in the form of a frame, covering the top face of the thin pliable film. At least a part of at least the thin pliable film is trimmed in such a way that a space is created between the additional layer and the thin pliable film, the space providing a beginning for the easy removing of the additional layer.

In general, in an aspect, a barrier includes a water impenetrable membrane having two sides. On one side of the membrane, a continuous strip of adhesive surrounds an adhesive-free central area. The entire extent of the continuous strip of adhesive bears one or more release strips. The membrane is resilient, flexible, and stretchable with an elongation at break in the range of 150% to 1000% (using test ASTM D412).