A textile part, in particular a textile orthopedic aid, having a textile main panel as well as at least one functional element from plastics material which is disposed on the main panel, wherein at least one planar cover element which engages only in portions across the functional element disposed in the main panel and which also extends across the main panel is provided, wherein the cover element is connected to the main panel and/or the functional element, and the functional element is connected to the main panel in a materially integral manner.

The present invention discloses a wound dressing and the method of manufacturing. The wound dressing is a knitted fabric including of a fluffy layer of gel-forming fibers and a backing layer of non-gel-forming fibers. The backing layer includes a plain fabric of the non-gel-forming fibers. The gel-forming fibers are knitted onto the backing layer, a middle part of the gel-forming fibers are held in the backing layer, and two ends of the gel-forming fibers project against the backing layer. The length of the middle part of the gel-forming fibers is no more than the length of one loop of the non-gel-forming fibers, and the length of each of the two ends of the gel-forming fibers is between 1-100 mm.

An absorbent article and method of making the absorbent article are disclosed. The absorbent article having a topsheet, a backsheet, and an absorbent core structure having one or more layers wherein at least one layer is a heterogeneous mass layer, wherein the topsheet and the heterogeneous mass are integrated such that they reside in the same X-Y plane.

The present disclosure includes methods and systems to generate compression garment fit information from 3D images taken of one or more body parts of a patient indicated for application of compression therapy. The body parts can include legs or arms or other areas. Three-dimensional (3D) imaging information can be used to derive compression garment fit information, where the shape description information includes for each body part: tissue compressibility information, outer circumference information, and length information. Comparisons between corresponding body parts on a person can also be conducted.

A compression garment for providing supplementary kinesiology therapy through fastened one or more kinesiological support members having properties for providing heat and pressure in addition to the compression pressure provided by one or more elastic layers of the compression garment. The compression garment may be a compression sleeve or wrap having various strategic patterns with respect to the one or more kinesiological support members for targeting particular muscles.

A wound recovery garment includes a multilayer fabric. The multilayer fabric comprises a first layer, a second layer, and a third layer. The multilayer fabric draws moisture from the skin tissues, including wounded or burned tissue recovering from trauma. The first layer removes moisture from wounded tissue without sticking to skin. The first layer is formed from compressive, elastic material that supplies compression forces to tissue. The second layer is an absorbent layer that receives the moisture from the first layer and stores tissue moisture in a sponge-like fashion. The second layer is disposed between the first layer and the third layer. The third layer is an exterior layer and is visible to outside viewers. No body fluid or blood leaks through the third layer. Individuals recovering from trauma are able to comfortably go outside without being concerned with body fluids soaking through and being visible to others.

A method of manufacturing a reduced-pressure abdominal treatment system for treating an open abdominal cavity is provided. In some embodiments, the reduced-pressure abdominal treatment system has an open-cavity treatment device for providing reduced-pressure treatment to an abdominal cavity; a deep-tissue closure device for applying a closing force on a deep-tissue wound; and a surface-wound closure subsystem for providing a closing force on a surface wound. The method of manufacturing may also include providing a reduced-pressure supply subsystem. A method of treatment using a reduced-pressure abdominal treatment system is also disclosed.

The present invention relates to a polyvinyl alcohol/sodium alginate/hydroxyapatite composite fibrous membrane, and a preparation method and an application thereof. The preparation method of the composite fibrous membrane includes the following steps: firstly, reacting a diammonium hydrogen phosphate with a calcium nitrate to prepare a hydroxyapatite, and performing ultrasonic dispersion on the hydroxyapatite with a sodium alginate to form a stable hydroxyapatite suspension; separately preparing a sodium alginate solution of which the mass fraction is 2% and a polyvinyl alcohol solution of which the mass fraction is 18% using the above stable hydroxyapatite suspension; and finally, proportionally and uniformly mixing the two solutions, and performing electrospinning.

An absorbent article and method of making the absorbent article are disclosed. The absorbent article having a topsheet, a backsheet, and an absorbent core structure having one or more layers wherein at least one layer is a heterogeneous mass layer, wherein the topsheet and the heterogeneous mass are integrated such that they reside in the same X-Y plane.

The present invention relates to a mechanical wound cleansing device comprising a carrier layer and an abrasive loop system arranged above the carrier layer, whereby the loop system is an intermeshed fiber system which is intermeshed above the carrier layer and/or a loop system comprising highly and softly abrasive loops. The present invention further relates to a method of producing said mechanical wound cleansing device. The present invention finally relates to the use of said wound cleansing device for the abrasive removal of and cleansing of wounds, especially for venous leg ulcers, diabetic foot ulcers (neuropathic and neuro-ischemic), arterial ulcers, mixed etiology ulcers, pressure ulcers or traumatic wounds.