Methods of making decellularized tendon matrix (DTM) and DTM hydrogels are provided. These compositions and hydrogels are useful for repairing tendon injuries and in some cases may be used by injection, arthroscopic procedures, or as adjuncts to traditional surgical repair.

The invention relates to methods of preparing a bone matrix solution, a bone matrix implant, and variants thereof. The invention also relates to methods of cell culture using the same. The invention further relates to bone matrix scaffolds comprising one or more bone matrix nanofibers, methods of preparing, and methods of use thereof. The invention also relates to methods of culturing cells and promoting differentiation of stem cells using the same.

A bone implant comprising cancellous bone that is essentially free of blood cells, and which has been treated with at least a loosening agent, such as collagenase and/or a digestive enzyme, for a time and at a concentration to loosen the osteogenic cells in the cancellous bone matrix. The osteogenic cells in the matrix are viable cells. The treatment of the cancellous bone with at least one loosening agent enables the osteogenic cells to be more available for carrying out their osteogenic function and to provide for an increased rate of bone formation.

A bioscaffold made from an isolated cardiac fibroblast-derived 3-dimensional extracellular matrix (ECM) is disclosed. The bioscaffold can be used as an epicardial patch for the delivery of therapeutic cells into myocardial tissue. Methods of making the 3-dimensional extracellular matrix using cultured cardiac fibroblasts are also disclosed.

The present invention relates to a peripheral nerve-specific hydrogel material, which is deliverable in a minimally invasive fashion, sustains the growth of neurons, and speeds recovery following surgical reconstruction.

The invention provides natural multi-composite bone implants such as bone-connective tissue-bone and osteochondral implants for the replacement and/or repair of, for example and in particular a damaged or defective bone-meniscus-bone joint or a bone-patella tendon-bone joint or osteochondral lesions, methods of preparing the composites and uses thereof. The invention also provides natural or native composite bone-connective tissue-bone and osteochondral matrices or scaffolds that are substantially decellularised for subsequent transplantation/implantation.

In alternative embodiments, provided are compositions, e.g., pharmaceutical compositions, formulations, kits and other products of manufacture, comprising a hydrogel and active ingredients, including mixed thickness skin micrografts, or full or split-thickness skin grafts, contained or mixed in or within the hydrogel; and methods for making and using them. In alternative embodiments, compositions and methods as provided herein are used for the treatment or amelioration of wounds and surgical sites, and include compositions and methods for micrografting, or for micrografting a wound, or for micrografting a wound for rapid re-epithelialization, or for micrografting a wound for rapid re-epithelialization of large non-healing wounds.

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 provides tissue products produced from adipose tissues, as well as methods for producing such tissue products. The tissue products can include acellular tissue matrices produced in multiple layers for treatment of a breast.

The present invention is a method for producing allograft tissue by applying an antimicrobial solution to allograft tissue. The antimicrobial solution exhibits antimicrobial activity to make allograft resistant to microbial organisms, such as bacterium.