The invention relates to a biocompatible, flexible, haemostatic sheet comprising: a water-resistant cohesive fibrous carrier structure comprising a three-dimensional interconnected interstitial space, said fibrous carrier structure comprising fibres containing a nucleophilic polymer carrying reactive nucleophilic groups; and distributed within the interstitial space, a plurality of reactive polymer particles comprising a water-soluble electrophilic polymer carrying at least three reactive electrophilic groups that are capable of reacting with amine groups in tissue and blood, as well as with reactive nucleophilic groups of the nucleophilic polymer, under the formation of a covalent bond, said reactive polymer particles having a diameter in the range of 0.5-100 μm and being present in an amount of at least 3% by weight of the fibrous carrier structure.

When blood is absorbed by the haemostatic sheet of the present invention, the reactive polymer particles within the sheet start dissolving as soon as they are ‘wetted’ by the blood, thereby allowing the electrophilic polymer to react with both reactive nucleophilic groups in the blood and tissue and reactive nucleophilic groups in the fibrous carrier structure, thereby inducing blood coagulation and tissue sealing, both of which contribute to haemostasis.

A method of treating hypoxic tissue such as wound tissue comprises contacting a composition to the hypoxic tissue in a hypoxia-treatment effective amount, the composition comprising a biodegradable polymer and an inorganic peroxide incorporated into the polymer.

A method of treating hypoxic tissue such as wound tissue comprises contacting a composition to the hypoxic tissue in a hypoxia-treatment effective amount, the composition comprising a biodegradable polymer and an inorganic peroxide incorporated into the polymer.

Membrane, used in particular for regenerating periodontal ligament, preventing the formation of adhesions or the regeneration and reconstruction of tissue, including at least one layer of fabric (N1) made of fibres (F) produced from at least one polymer. The fibres (F) are free of sizing, the layer of fabric (N1) has a non-woven arrangement of fibres disposed in a random or aligned manner, and the fibres (F) are coated with PolyNaSS (polystyrene sodium sulfonate).

Membrane, used in particular for regenerating periodontal ligament, preventing the formation of adhesions or the regeneration and reconstruction of tissue, including at least one layer of fabric (N1) made of fibres (F) produced from at least one polymer. The fibres (F) are free of sizing, the layer of fabric (N1) has a non-woven arrangement of fibres disposed in a random or aligned manner, and the fibres (F) are coated with PolyNaSS (polystyrene sodium sulfonate).

A dressing (as well as uses, systems, and methods including such dressing) is provided that includes a contact layer with a first surface configured to contact a tissue site in a subject and includes a scaffold configured to structurally support the contact layer, where the contact layer includes a bioresorbable material. The dressing may advantageously exhibit protease-modulating activity under physiological conditions.

A dressing (as well as uses, systems, and methods including such dressing) is provided that includes a contact layer with a first surface configured to contact a tissue site in a subject and includes a scaffold configured to structurally support the contact layer, where the contact layer includes a bioresorbable material. The dressing may advantageously exhibit protease-modulating activity under physiological conditions.

Disclosed herein are matrices, compositions and methods of making matrices. The matrix comprises a biomolecule and the matrix is a dried, cross-linked foam. The matrix is not lyophilized. The method comprises foaming the composition, crosslinking the composition and drying the composition. Matrices disclosed herein are useful as wound dressings and treating wounds.

Disclosed herein are matrices, compositions and methods of making matrices. The matrix comprises a biomolecule and the matrix is a dried, cross-linked foam. The matrix is not lyophilized. The method comprises foaming the composition, crosslinking the composition and drying the composition. Matrices disclosed herein are useful as wound dressings and treating wounds.

A biodegradable, non-pressure compression leg wrap for cattle suffering lameness from for example digital dermatitis with disintegration time controlled by the ratio of polyvinyl alcohol to copolymer starch or cellulose in the wrap composition.