Systems, apparatuses, and methods for closing an opening through a surface of a tissue site are described. The system includes a sealing member adapted to cover the opening to form a sealed space and a negative-pressure source adapted to be fluidly coupled to the sealed space to provide negative pressure to the sealed space. The system also includes a contracting layer adapted to be positioned adjacent the opening and formed from a material having a firmness factor and a plurality of holes extending through the contracting layer to form a void space. The holes have a perforation shape factor and a strut angle causing the plurality of holes to collapse in a direction substantially perpendicular to the opening. The contracting layer generates a closing force substantially parallel to the surface of the tissue site to close the opening in response to application of the negative pressure.

A dressing for treating a tissue site with negative pressure, a sealing tape, methods of use and methods of manufacturing the sealing tape are described. The dressing includes a tissue interface configured to be positioned adjacent to the tissue site and a sealing member configured to be positioned over the tissue interface and the tissue site to form a sealed environment. The dressing also includes a sealing tape having a carrier layer having a first side and a second side, a silicone adhesive layer bonded to the first side of the carrier layer, and an acrylic adhesive layer bonded to the second side of the carrier layer. A plurality of holes extend through the silicone adhesive layer, the acrylic adhesive layer, and the carrier layer. A first release liner is coupled to silicone adhesive layer, and a second release liner is coupled to the acrylic adhesive layer.

A wound therapy system includes a dressing sealable over a wound and defining a wound space between the dressing and the wound, tubing fluidly communicable with the wound space, and a canister fluidly communicable with the tubing. The canister, the tubing, and the dressing define a sealed space that includes the wound space. The wound therapy system also includes a therapy unit coupled to the canister. The therapy unit includes a sensor configured to measure a pressure in the sealed space, a valve positioned between the sealed space and a surrounding environment and controllable between an open position and a closed position, and a control circuit. The control circuit is configured to control the valve to alternate between the open position and the closed position to allow airflow through the valve, receive measurements from the sensor, and determine a volume of the wound space based on the measurements.

The present application provides a negative pressure wound dressing, including foam and a bio-cellulose film with a three-dimensional reticular structure formed on a surface of the foam, wherein a projected area of the bio-cellulose film on a bonding surface of the foam and the bio-cellulose film is greater than or equal to that of the foam. The presence of the bio-cellulose film between the foam and a wound avoids the foam from sticking to the wound and the growth of new tissue into the foam when performing a negative pressure wound therapy. Also, when replacing the foam, a secondary damage to the wound is reduced, so as to relieve pain that the patient suffers.

A fingerstall, in particular for treatment of defects of the distal phalanx of the finger with a closed distal end, an open proximal end, and an interior. Provision is made that a chamber is formed in the fingerstall at the distal end thereof and the chamber is in liquid communication with the interior of the fingerstall.

A wound therapy apparatus is disclosed that includes a wound interface securable to a skin surface around a wound bed to form an enclosed space over the wound bed that is fluid-tight. The wound therapy apparatus may include a dressing engaged with the wound interface to contact the wound bed. Gas within the enclosed space may have an O.sub.2 concentration greater than the O.sub.2 concentration in atmospheric air. The dressing may include a hydrophobic material, hydrophobic material, or a distal layer comprised of silicone having fenestrations therein, in various aspects. The pressure p.sub.0 within the enclosed space may vary over a pressure range p.sub.minp.sub.0p.sub.max. Related methods of use are also disclosed.

Dressings, systems, and methods are disclosed for treating tissue with reduced pressure. A dressing for distributing reduced pressure to a tissue site includes a plurality of liquid-impermeable layers that are stacked and a plurality of spacers disposed at least partially between adjacent liquid-impermeable layers. The plurality of liquid-impermeable layers are fenestrated at least in part. The plurality of spacers and plurality of liquid-impermeable layers form a plurality of flow paths for allowing fluid flow under reduced pressure. Adjacent layers of the plurality of liquid-impermeable layers are stacked without foam between at least a majority of coextensive surfaces. Other dressings, systems, and methods are disclosed.

Oxygen diffusive wound dressings and methods of manufacturing and use are described herein. The wound dressing may generally provide a ready supply of oxygen to a wound being treated via one or more oxygen conduits which are designed to pass oxygen from ambient air or other oxygen reservoirs into proximity to the wound, and may also provide for exudate removal through transecting channels in fluid communication with both the wound surface and a hydrophilic absorbent material.

A porous conduit may be suitable for use in treating a tissue site, and may include a central lumen and a porous wall positioned substantially concentric about the central lumen. The porous wall may have an open porous structure that may define a plurality of interconnected pores in fluid communication with one another. As part of a system, the porous conduit may be used with a manifold adapted to be positioned at a tissue site, a sealing drape adapted to cover the manifold to provide a sealed space relative to the tissue site, and a therapy device including a reduced-pressure source. The porous conduit may be disposed in the sealed space and in fluid communication between the sealed space and the reduced-pressure source.

A negative pressure wound closure system and methods for using such a system are described. Preferred embodiments of the invention facilitate closure of the wound by utilizing a stabilizing structure that preferentially contracts to provide for movement of the tissue. Some embodiments may utilize a protective layer, such as a mesh or net layer, attached to a top surface of the stabilizing structure. The protective layer prevents a drape positioned over the stabilizing structure from being drawn into cells of the stabilizing structure, and permits visualization of the collapse of the cells.