A composition has an enzyme that is able to convert a substrate to release hydrogen peroxide; a substrate for the enzyme; and a superabsorbent component, such as a superabsorbent polymer. The composition is in the form of a powder and may form a gel on contact with water.

Disclosed herein are polypeptides comprising an amino acid sequence of {[VPGVG].sub.4IPGVG}.sub.n, wherein n is an integer greater than 1. The polypeptides can be crosslinked to from biocompatible hydrogels with tunable and desirable mechanical properties. The polypeptides and hydrogels can be used in a variety of biomedical applications including treatment of bleeding, treatment of soft tissue injury, injectable filler, and tissue adhesives.

This invention reveals the potential applications of modified porcine plasma fibronectin that could be applied as a safe material for clinical wound healing and tissue repair. In order to seek safe sources of plasma fibronectin for practical consideration in wound dressing, this invention isolated and modified fibronectin from porcine plasma and demonstrated that modified porcine plasma fibronectin has similar ability as homo plasma fibronectin being as a suitable substrate for stimulation of cell adhesion and directed cell migration. The present invention also reveals a material and a pharmaceutical composition enhance wound healing.

The present invention refers to a composition, comprising hemoglobin or myoglobin, wherein in at least 40% of said hemoglobin or myoglobin the oxygen binding site is charged by a non-O.sub.2 ligand, and at least one further ingredient, a method for preparing said composition and the use of hemoglobin or myoglobin charged with a non-oxygen ligand for external treatment of wounds.

The present invention discloses a biodegradable and biocompatible pharmaceutical composition comprising silk Sericin, sophorolipid, a gelling or thickening agent and one or more pharmaceutically acceptable carriers or excipients for faster wound healing and limit scarring.

The present invention provides a method of making a wound treatment composition, wherein the method comprises; i) fractionating a whole blood sample into multiple samples including a platelet rich plasma (PRP) sample, a platelet poor plasma (PPP) sample and a erythrocyte sample, wherein the PRP sample has a haematocrit level of 1-10%, ii) processing a portion of the PPP and/or PRP sample to facilitate cleavage of autologous pro-thrombin present in the PPP and/or PRP to produce autologous thrombin, and iii) combining the PRP sample with a portion of the PPP sample and a portion of the thrombin produced in step (ii) to produce the wound treatment composition; wherein step ii) is performed at less than 15 C. In preferred embodiments the PRP has a haematocrit level of 2 or 8%. Wound treatment compositions produced by the methods are also provided as are compositions for use in treating chronic and acute wounds.

The present invention provides a method of making a wound treatment composition, wherein the method comprises; i) fractionating a whole blood sample into multiple samples including a platelet rich plasma (PRP) sample, a platelet poor plasma (PPP) sample and a erythrocyte sample, wherein the PRP sample has a haematocrit level of 1-10%, ii) processing a portion of the PPP and/or PRP sample to facilitate cleavage of autologous pro-thrombin present in the PPP and/or PRP to produce autologous thrombin, and iii) combining the PRP sample with a portion of the PPP sample and a portion of the thrombin produced in step (ii) to produce the wound treatment composition; wherein step ii) is performed at less than 15 C. In preferred embodiments the PRP has a haematocrit level of 2 or 8%. Wound treatment compositions produced by the methods are also provided as are compositions for use in treating chronic and acute wounds.

The present invention relates to peptides capable of forming a gel and to their use in tissue engineering and bioprinting. The present invention furthermore relates to a gel comprising a peptide in accordance with the present invention, to a method of preparing such gel and to the use of such gel. In one embodiment, such gel is a hydrogel. The present invention furthermore relates to a wound dressing or wound healing agent comprising a gel according to the present invention and to a surgical implant or stent comprising a peptide scaffold formed by a gel according to the present invention. Moreover, the present invention also relates to a pharmaceutical and/or cosmetic composition, to a biomedical device or an electronic device comprising the peptide according to the present invention.

The present invention refers to a composition, comprising hemoglobin or myoglobin, wherein in at least 40% of said hemoglobin or myoglobin the oxygen binding site is charged by a non-O.sub.2 ligand, and at least one further ingredient, a method for preparing said composition and the use of hemoglobin or myoglobin charged with a non-oxygen ligand for external treatment of wounds.

A set of cationic amphiphilic self-assembled peptides (CASPs) is presented that employ high-charge density at fiber edges to disrupt bacterial membranes. CASP nanofibers are effective against Pseudomonas biofilms. There is an inherent trade-off between the ability of the peptides to undergo nanofibrous self-assembly and having a high terminal charge density required for effective bactericidal efficacy. The self-assembled peptide hydrogel presented achieves a balance of these opposing factors. Also demonstrated is the applicability of the new composition in an injectable hydrogel formulation. A CASP platform may be useful for topical application and integration into medical coatings, grafts, devices, and prostheses, thereby reducing risk of bacterial infection and related failure.