The present invention provides a composition comprising fetal cartilage tissue-derived cells and a fetal cartilage tissue-derived extracellular matrix as active ingredients for regenerating a growth plate. The composition for regenerating a growth plate can inhibit bone bridge formation in a growth plate injury region without a scaffold and differentiate to a growth plate cartilage tissue to effectively fill and regenerate the injured region therewith, whereby the regenerated growth plate tissue can recover growth ability. In addition, the composition is compatible with and safe to biological tissues and is characterized by high reproducibility and homogeneity.

A manufacturing process forms a bored hollow lumen. The manufacturing process includes providing a solid rod of a bioresorbable material and boring a hole axially through the solid rod. The manufacturing process also includes modifying surface defects formed on a luminal surface by the boring, the luminal surface defining the hole, thereby forming the bored hollow lumen. A bored hollow lumen includes a lumen wall including a bioresorbable material. The lumen wall has an abluminal surface and a luminal surface. The luminal surface defines a bore through the bored hollow lumen. The bioresorbable material has a uniform crosslinking density.

The disclosure relates to compounds and compositions for forming bone and methods related thereto. In one embodiment, the disclosure relates to a composition comprising a compound disclosed herein, such as 2,4-diamino-1,3,5-triazine derivatives or salts thereof, for use in bone growth processes. In a typical embodiment, a bone graft composition is implanted in a subject at a site of desired bone growth or enhancement.

Disclosed herein are crosslinked polycarbonates, composition thereof and methods thereof. The crosslinked polycarbonates can be prepared from allyl or epoxy polycarbonates. This abstract is intended as a scanning tool for purposes of searching in the particular art and is not intended to be limiting of the present invention.

The present invention is a bone growth stimulating and promoting cytokine type biological implant preferably comprising PTH coated with a controlled release biodegradable coating that is implanted preferably in the concave side of a scoliotically curved spine in combination with a bone growth inhibiting type biological implant preferably comprising methotrexate or like anti-metabolite coated with a controlled release biodegradable coating that is implanted preferably in the convex side of a scoliotically curved spine. The insertion of the biological implant is highly non-invasion, especially as compared to more conventional spine surgical methods, and the biological implant does not decrease spinal mobility or spinal range of motion.

A method of treating a spinal cord injury in a subject in need thereof is disclosed. The method comprises implanting a scaffold into the spinal cord of a subject, wherein the scaffold is seeded with oral mucosa stem cells (OMSC) and/or cells that have been ex vivo differentiated from said OMSCs, thereby treating the spinal cord injury.

A composition for treating a wound includes graphene oxide (GO) and hyaluronic acid (HA) that are covalently linked, XAV939, and water. The composition can also include a surfactant, such as PEG. The composition can be topically administered to a subject to treat a wound of the subject. Methods of treating a wound using the composition are also provided.

Described herein are compositions and method for autologous adipose tissue grafting. In one embodiment, the composition comprises a recombinant partially ordered polypeptide (Fractomer) or “Fractomer” and adipose tissue from a subject. In one aspect, the Fractomer has the general structure of [(GXGVP).sub.n-α-helix].sub.m, where X can be any amino acid except proline and α-helix is any polyalanine based α-helix having about 5 to 50 Alanine residues. In another aspect, the Fractomer has the structure [(GXGVP).sub.n-GX.sup.1(A).sub.25X.sup.1].sub.m; where X is A or V; X.sup.1 is K or D; n is an integer from 10 to 20; and m is an integer from 4 to 8.

Provided herein are methods for the production of native and reconstituted hyaluronan (HA) complexes containing pentraxin-3 (PTX3) and heavy chain 1 (HC1) of inter alpha inhibitor (IαI). Compositions containing the complexes and therapeutic methods using the complexes are provided. Combinations and kits for use in practicing the methods also are provided.

Disclosed herein are synthetic hydrogels suitable for delivering antimicrobial proteins, optionally in combination with bone regenerating agents to injured tissues. The hydrogels can include lysostaphin and one or more bone morphogenic proteins. The hydrogels are composed of a network of crosslinked hydrophilic polymers and adhesion peptides.