Computer implemented methods of producing a bone graft are provided. These methods include obtaining a 3-D image of an intended bone graft site; generating a 3-D digital model of the bone graft based on the 3-D image of the intended bone graft site, the 3-D digital model of the bone graft being configured to fit within a 3-D digital model of the intended bone graft site; storing the 3-D digital model on a database coupled to a processor, the processor having instructions for retrieving the stored 3-D digital model of the bone graft and for combining a carrier material with, in or on a bone material based on the stored 3-D digital model and for instructing a 3-D printer to produce the bone graft. A layered 3-D printed bone graft prepared by the computer implemented method is also provided.

Hyaluronic acid and silk protein fragments based tissue fillers and methods of using the same are provided herein.

Disclosed herein is an anti-adhesion kit comprised of: (i) a fibrinogen solution component comprising: fibrinogen at a concentration of about 5 to 25 mg/ml; and free calcium ions at a concentration ranging from 0.1 μM to 1 mM; and (ii) a thrombin component containing thrombin. Further disclosed is an anti-adhesion kit comprised of: (i) a fibrinogen solution component containing fibrinogen at a concentration of 8% to 25% of total protein by weight, and optionally free calcium ions at a concentration ranging from 0.1 μM to 1 mM; wherein a total protein concentration ranges from about 80 to 120 mg/ml; and (ii) a thrombin component containing thrombin. Methods of using the kits e.g., to provide anti-adhesion curable compositions are also disclosed.

A hyaluronic acid-based aqueous gel including crosslinked hyaluronic acid and from 30 to 70% by mass with respect to the total mass of hyaluronic acid, of a water-soluble hyaluronic acid. A method for preparing an aqueous gel having at least a crosslinked hyaluronic acid and at least an uncrosslinked hyaluronic acid. Also an aqueous gel obtainable by the method compositions, a cosmetic and/or dermatological composition including the aqueous gels, and a kit comprising a pre-filled syringe comprising the aqueous gel or said composition. These gels and compositions are useful in particular for treating an alteration in the surface appearance of the skin and/or for augmenting and/or filling soft tissue.

The present invention relates to a hyaluronic acid-based hydrogel which is a hyaluronic acid-peptide crosslinked body crosslinked using a peptide crosslinking agent. More specifically, the present invention relates to a hyaluronic acid-based hydrogel and a method for producing same, wherein a crosslinked body having novel physical properties is obtained using a relatively small amount of a crosslinking agent that forms peptide bonds, unlike conventional crosslinking agents, and the hyaluronic acid-based hydrogel has the advantages of: being safe and having few side effects; the physical properties of a filler being adjustable according to the amount of peptide crosslinking; and having a high elasticity ratio.

Systems, methods, and kits are described for repairing a fibrocartilage defect in a subject. The fibrocartilage defect is contacted with a first composition containing an oxidized and methacrylated glycosaminoglycan to form an imine bond between the glycosaminoglycan and the fibrocartilage defect, thereby coating the fibrocartilage defect with the glycosaminoglycan. The fibrocartilage defect coated with the glycosaminoglycan is then contacted with a mixture of a pre-polymer hydrogel composition containing a first crosslinking unit that, when polymerized, is capable of bonding to methacrylate and a hydrogel polymerization initiator composition, thereby forming a hydrogel that is covalently bonded to the glycosaminoglycan through methacrylate.

Methods and compositions are provided for the regeneration of articular cartilage by activating skeletal stem cells with a combination of (i) mechanical and (ii) biochemical stimulus. The mechanical stimulus can be an acute local injury. The biochemical stimulus can be a combination of an effective dose of a BMP2 activating agent and a VEGF inhibitor.

The present invention relates to Regentide-041 and, more specifically, to a use of Regentide-041 for improving skin conditions. Regentide-041 according to the present invention is free of cytotoxicity and has remarkable effects of skin aging reduction, skin regeneration, skin elasticity improvement, skin wrinkle prevention, skin wrinkle reduction, and skin wound recovery and as such, can be variously utilized in the pharmaceutical, medicinal, cosmetic, and food fields.

Disclosed is the preparation of injectable collagen suspensions, to the method for preparing the suspensions, and to the uses thereof, particularly for forming dense collagen matrices.

A microcapsule which is used in tissue regeneration, which may be specifically directed to the damaged tissues, and which forms an extracellular matrix-like structure at a certain point and thus allows cell proliferation.