The present invention provides a hemostatic porous composite sponge comprising i) a matrix of a biomaterial; and ii) one hydrophilic polymeric component comprising reactive groups wherein i) and ii) are associated with each other so that the reactivity of the polymeric component is retained, wherein associated means that said polymeric component is coated onto a surface of said matrix of a biomaterial, or said matrix is impregnated with said polymeric material, or both.

The present disclosure relates generally to wound dressing compositions and methods of manufacturing the wound dressing compositions of the present technology. The wound dressing composition includes a mixture of a collagen and/or chitosan and oxidized regenerated cellulose (ORC) with a layer of citric acid disposed therein. Also disclosed herein are methods of manufacturing such wound dressing compositions as well as kits including such wound dressing compositions.

The present disclosure relates generally to wound dressing compositions and methods of manufacturing the wound dressing compositions of the present technology. The wound dressing composition includes a mixture of a collagen and/or chitosan and oxidized regenerated cellulose (ORC) with a layer of citric acid disposed therein. Also disclosed herein are methods of manufacturing such wound dressing compositions as well as kits including such wound dressing compositions.

The present disclosure provides wound dressing compositions that disrupt biofilm formation in a wound upon application. The wound dressing composition includes a first layer comprising a homogeneous mixture of a collagen, an oxidized regenerated cellulose (ORC), and at least one bacteria reducing active ingredient and a second layer comprising a homogeneous mixture of a collagen, an oxidized regenerated cellulose (ORC), a silver compound, and at least one bacteria reducing active ingredient, and the uses thereof. Also disclosed herein are kits comprising the wound dressing compositions of the present technology, and instructions for use.

The present disclosure provides wound dressing compositions that disrupt biofilm formation in a wound upon application. The wound dressing composition includes a first layer comprising a homogeneous mixture of a collagen, an oxidized regenerated cellulose (ORC), and at least one bacteria reducing active ingredient and a second layer comprising a homogeneous mixture of a collagen, an oxidized regenerated cellulose (ORC), a silver compound, and at least one bacteria reducing active ingredient, and the uses thereof. Also disclosed herein are kits comprising the wound dressing compositions of the present technology, and instructions for use.

Described is a haemostatic device comprising a substrate and a surface formed on the substrate. The surface comprises at least one of micro- and nano-sized materials, the materials being partially embedded in a base, the surface substantially preventing wetting of the substrate. An embodiment of the device is carbon nano fibres embedded partially in a PDMS or PTFE base, on a substrate.

The present invention provides a hemostatic porous composite sponge comprising: i) a matrix of a biomaterial; and ii) one hydrophilic polymeric component comprising reactive groups wherein i) and ii) are associated with each other so that the reactivity of the polymeric component is retained, wherein associated means that said polymeric component is coated onto a surface of said matrix of a biomaterial, or said matrix is impregnated with said polymeric material, or both.

The present invention provides a hemostatic porous composite sponge comprising: i) a matrix of a biomaterial; and ii) one hydrophilic polymeric component comprising reactive groups wherein i) and ii) are associated with each other so that the reactivity of the polymeric component is retained, wherein associated means that said polymeric component is coated onto a surface of said matrix of a biomaterial, or said matrix is impregnated with said polymeric material, or both.

The present disclosure provides a magnetic dressing and a preparation method and use thereof, belonging to the technical field of pharmaceutical preparations. The magnetic dressing includes a magnetic layer, a drug-loading layer, and a protective layer that are stacked in sequence, where the magnetic layer includes polyvinyl alcohol, gluten, and iron particles. In the present disclosure, a swallowed magnetic dressing is controlled by an external magnetic field, and the magnetic dressing is moved to a pathological position by changing a direction of the external magnetic field; after the external magnetic field is removed, the magnetic dressing changes from a ring to a sheet, thereby completing attachment of an entire lesion surface to complete treatment by autonomous drug release.

The present disclosure provides a magnetic dressing and a preparation method and use thereof, belonging to the technical field of pharmaceutical preparations. The magnetic dressing includes a magnetic layer, a drug-loading layer, and a protective layer that are stacked in sequence, where the magnetic layer includes polyvinyl alcohol, gluten, and iron particles. In the present disclosure, a swallowed magnetic dressing is controlled by an external magnetic field, and the magnetic dressing is moved to a pathological position by changing a direction of the external magnetic field; after the external magnetic field is removed, the magnetic dressing changes from a ring to a sheet, thereby completing attachment of an entire lesion surface to complete treatment by autonomous drug release.