Haemostatic wound dressings are described. The dressings comprise a non-colloidal porous dressing material, and a plurality of fibrinogen-binding peptides immobilised to the non-colloidal porous dressing material, wherein each fibrinogen-binding peptide comprises: an amino acid sequence Gly-Pro-Arg-Xaa (SEQ ID NO: 1) at an amino-terminal end of the peptide, wherein Xaa is any amino acid other than Val, preferably Pro, Sar, or Leu; or an amino acid sequence Gly-His-Arg-Xaa (SEQ ID NO: 2) at an amino-terminal end of the peptide, wherein Xaa is any amino acid other than Pro. The dressings are able to accelerate haemostasis without requiring enzymatic activity. In particular, the dressings to do not rely on the action of exogenous thrombin, and can be stored long-term at room temperature in solution. Methods of making the dressings, and use of the dressings to control bleeding are also described.

The present invention relates to a method that includes providing a formulation having an isocyanate-functional prepolymer and a curing component comprising an amino-functional aspartic ester of the general formula (I) ##STR00001##
applying the formulation to a cell tissue; and curing the formulation such that the loss of blood (haemostatic) or tissue fluids is staunched or leaks in cell tissues are sealed.

In one aspect, the present invention includes a haemostat composition that includes a chitosan, chitosan salt or chitosan derivative, and a physiologically acceptable acid selected from the group consisting of lactic acid, formic acid, acetic acid, ascorbic acid, halogen acetic acids, propanoic acid, propenoic acid, acrylic acid, glyoxylic acid, pyruvic acid or a hydroxy propionic/butanoic acid, and combinations of any two or more thereof; or one or more acids selected from hydrochloric acid and sulphuric acid. The haemostat composition is able to safely gradually and fully degrade in a human or animal body within about 30 days and so can be utilised by physicians to stem a flow of blood and promote healing both after as well as during surgical procedures.

Devices for the occlusion of body cavities, such as the embolization of vascular aneurysms and the like, and methods for making and using such devices are described.

The present invention relates to a long-lasting medical product for protecting or treating a lesion in the gastrointestinal tract. The medical product includes a protective covering, wherein the medical product upon application at and about the site of the lesion adheres to the gastrointestinal tissue and is capable of remaining at and about the site of the lesion for a time sufficient to allow the lesion to heal or be treated.

Collapsible tube embodiments may be used to promote hemostasis at surgical sites or any other suitable location. In some cases, vascular closure device embodiments may include collapsible tube embodiments in order to promote hemostasis at a surgical site during a vascular closure procedure.

A hemostatic composition comprises a powder of a plurality of hollow or highly-porous microparticles that exhibit hemostatic properties, wherein each of the microparticles comprise a body comprising a clay material that is a crystalline hydrated form of a layered silicate.

Provided herein are a biocompatible hemostatic product and a tissue sealant, including polyethylene oxide particles with a viscosity-average molecular weight ranging from 100,000 to 7,000,000 Daltons, a particle size ranging from 0.5 μm to 2000 μm and a water absorbency capacity ranging from 1 to 500 times of its own weight. Also provided herein is a method for preparing biocompatible hemostatic product and tissue sealant and the use of the biocompatible hemostatic product and tissue sealant in hemostasis, preventing adhesion, avoiding infection, promoting tissue healing, and sealing wound of tissues and organs either on animal's body surface, or inside body's cavity.

The invention relates to a heart valve prosthesis including a heart valve a main body for supporting the heart valve. The heart valve includes a terminating material selected from material and configured to at least partially close a paravalvular leak by controlled thrombus development.

A composition for wound healing, comprising an amount of a macrophage proresolving polarizer, wherein the amount is effective to promote wound healing. The composition includes wherein the macrophage proresolving polarizer is lipin-1. The composition includes wherein the composition includes one, two, or three of IL-4, apoptotic cells (ACs), and AC derived lipids. The composition includes wherein the macrophage proresolving polarizer is a lipin-1 transcriptional coregulatory activity promoter. The composition includes, wherein the lipin-1 transcriptional coregulatory activity promoter is an inhibitor of lipin-1 macrophage pro-inflammatory responses enzymatic activity. A method for promoting wound healing, comprising contacting a wound on a skin of a mammal with the composition. A kit comprising one or more containers including the composition in sterile packaging. A wound healing device comprising a substrate and an amount of an amount of a macrophage proresolving polarizer, wherein the amount is effective to promote wound healing.