In order to create a simple device for immobilizing the human body or parts of the body in a manner that is gentle on the patient, in particular for arranging medical targeting devices, markers or surgical instruments for image-guided, minimally invasive surgery, said device having at least one immobilization element (1) which can be positioned on the surface of the body, the immobilization element (1) is made of a bonded nonwoven fabric (2) which can be fastened by means of a micro hook-and-loop fastener (3).

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.

A wound dressing is in the form of a strip or a ribbon. The strip or ribbon is made of gel-forming fibers and has longitudinal lines of stitches formed from a thread and transverse lines of stitches formed from a thread.

An elongate wound dressing for packing a wound is described, the wound dressing being substantially planar and having a first longitudinal edge comprising at least one curved edge portion which is curved in the plane of the wound dressing.

Methods, dressings, and systems for promoting epithelialization of a wound or other tissue are presented. The methods, dressings, and systems help form simulated rete pegs. In one instance, an epithelialization dressing is disclosed that may include a dressing body having a plurality of projections. A plurality of apertures is formed on a portion of the dressing body. The dressing helps manage fluids on the wound and the projections form cavities into which epithelial tissue migrates to from epithelial columns that function like rete pegs. Other dressings, methods, and systems are disclosed.

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 preferentially contracting to provide for movement of the tissue. Some embodiments may include wound closure devices built from smaller units that are modular, assemble-able and/or customizable.

The invention relates to a transparent, absorbent device for the dressing of wounds and insertion sites of percutaneous and drug delivery devices. The device provides 360 degree or complete circumferential protection of a wound or insertion site of a percutaneous or drug delivery device and comprises a hydrogel center and at least one absorbent material. The hydrogel center can optionally comprise a bioactive agent(s).

A bioresorbable haemostatic foam sponge for adhering to a wound. The sponge has a tissue-contacting surface divided into a plurality of closely-spaced tissue contacting elements. Also disclosed are methods for forming the haemostatic sponge and methods of using the sponge.

Some examples of a dressing for treating a tissue site can include a manifold layer comprised of foam. The manifold layer can have a first side, a second side, and a thickness between the first side and the second side. The manifold layer can include a plurality of holes extending through the thickness of the manifold layer and being positioned at least in a first row and a second row. Each of the plurality of holes may have a hole length that is longer than and perpendicular to a hole width. The hole length of at least one of the holes in the first row may be positioned at an angle relative to the hole length of another of the holes in the second row. The manifold layer can be configured to prevent tissue in-growth and contract radially in all directions. Other apparatuses, dressings, systems, and methods are disclosed.

The present invention relates to a sterilized medical dressing for treating wounds comprised of a polymer sponge containing an antimicrobial agent and a silicon adhesive secured to the dressing surface. The dressing can be exposed initially to gamma radiation and later sterilized by ethylene oxide or alternatively it can be sterilized by ethylene oxide and later irradiated by gamma radiation. z The sponge dressing can also contain at least one biofilm reducing agent, at least one chelating agent and an ionic and non-ionic surfactant.