Disclosed are collagen nanoparticles obtained from waste scaly skins from fish by using a micro fluid technique, a method for obtaining the collagen nanoparticles, and their field of use.

A method of treating or preventing a microbial infection in a subject is described. The method includes contacting a microorganism within the subject with a composition comprising one or more species of amoebae of the genus Willaertia. Antibiotic wound dressings and kits for providing amoeba for treatment or prevention of microbial infection in a subject are also described.

A polyfunctional radical scavenger hydrogel formulation providing extended protection of the extracellular space within a wound site. The polyfunctional radical scavenger hydrogel formulation is generally formed from a hydrogel, a first radical scavenger and a second radical scavenger differing from the first radical scavenger with respect to at least one property. A portion of the first radical scavenger included with the formation and/or second radical scavenger included within the formulation may be dissolved, suspended and/or bonded to a polymer of the hydrogel.

The present invention resides in a method for producing jellyfish collagen hydrogels and kits for producing the same. The jellyfish collagen hydrogels can be used in the culture of cells. According to the invention, there is a process for producing jellyfish collagen hydrogels comprising jellyfish collagen fibrils, said process comprising the steps of: mixing a solution of purified jellyfish collagen and an aqueous neutralisation buffer; and incubating the mixture for a sufficient time to enable jellyfish collagen fibrils to form, wherein a cross-linking agent is either added during to mixing step or during or after the incubation of the mixture.

The present disclosure relates to a method for preparing an absorbable haemostatic composition for the body and the haemostatic composition prepared thereby, and the present disclosure is for providing a method for preparing an absorbable haemostatic composition for the body and the haemostatic composition prepared thereby, wherein the haemostatic composition can be used directly on the wound site when bleeding occurs in the surgical area such as surgical operation, trauma, etc. so that hemostasis can be effectively performed, the haemostatic composition can perform wound sealing, tissue repairing promotion, wound surface tissue protection, infection prevention, etc., the haemostatic composition is contained in haemostatic products such as gauze (cotton yarn), sponge, etc. to accelerate the hemostasis speed of the bleeding site and enable rapid hemostasis to be able to shorten the hemostasis time at the same time.

The present invention describes a composition comprising a mixture of human foetal keratinocyte cells and human foetal fibroblast cells, the ratio between said keratinocyte and fibroblast cells ranging from 0.75 to 2.5, preferably being 1:1 or 7:3. This composition is advantageously included in a bandage, said bandage preferably being sterile and packaged in a container impermeable to microorganisms. The present invention finally concerns the use of this composition as a drug, in particular for treating a skin defect (wound, burn or ulcer).

Disclosed are nasal dressings and nasal stents comprising a collagen foam. Also disclosed are methods of making and using such nasal dressings and nasal stents. In an embodiment, a nasal dressing or nasal stent is formed by a method comprising the steps of: forming an aqueous mixture of from 5 to 25 wt % of acid-soluble collagen and from 75 to 95 wt % of collagen fibers, both based on the total solids content of the aqueous mixture, placing the aqueous mixture into a mold, freeze-drying the aqueous mixture while in the mold, thereby forming a collagen foam, and cross-linking the collagen foam.

An article and a method of making the article. The article can include a conformable matrix comprising a mixture of collagen and bioactive glass; wherein the article is a conformable wound dressing. The method includes dissolving collagen in an acid solution; adding bioactive glass to the acid solution; mixing collagen and bioactive glass to increase or decrease the pH of the solution; and forming a mixture of collagen and bioactive glass.

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.