A bone graft substitute includes a porous matrix at least partially covered by a reinforcing outer layer. The porous matrix may be a collagen-ceramic composite, and the reinforcing outer layer may be formed from highly cross-linked collagen. The implant may also include one or more reinforcement rib
A bone graft substitute includes a porous matrix at least partially covered by a reinforcing outer layer. The porous matrix may be a collagen-ceramic composite, and the reinforcing outer layer may be formed from highly cross-linked collagen. The implant may also include one or more reinforcement ribs, which may be made from calcium phosphate or dense collagen. In addition, the bone graft substitute preferably includes an effective amount of a bioactive agent, such as BMP-2, rhBMP-2, or functional fragments thereof. The bioactive agent is preferably disposed within the porous matrix.
대표청구항▼
1. A bone graft substitute comprising: a porous matrix; a reinforcing outer layer covering at least a portion of the porous matrix and having at least one opening providing access to the porous matrix, the reinforcing outer layer having an inside surface; and a plurality of reinforcement ribs dispos
1. A bone graft substitute comprising: a porous matrix; a reinforcing outer layer covering at least a portion of the porous matrix and having at least one opening providing access to the porous matrix, the reinforcing outer layer having an inside surface; and a plurality of reinforcement ribs disposed along the inside surface of the reinforcing outer layer along the entire length of the bone graft substitute, each reinforcement rib of the plurality of reinforcement ribs being surrounded by and contacting the porous matrix on at least three sides and the inside surface of the reinforcing outer layer, and each reinforcement rib of the plurality of reinforcement ribs comprising four side walls, the four side walls defining a hollow region that runs the entire length of the reinforcement rib, the four side walls comprising holes to further expose the hollow region, wherein the plurality of reinforcement ribs comprise a biodegradable material and are integrally formed with the outer layer, and the porous matrix comprises a bioactive agent comprising BMP-2 at a concentration from about 1.0 to 4.0 mg/ml, and the at least one opening is disposed between the plurality of reinforcement ribs. 2. The bone graft substitute of claim 1 wherein the porous matrix is a collagen-ceramic composite. 3. The bone graft substitute of claim 2 wherein the collagen-ceramic composite further comprises calcium phosphate. 4. The bone graft substitute of claim 1 wherein the reinforcing outer layer is formed from highly cross-linked collagen. 5. The bone graft substitute of claim 1 wherein the reinforcement ribs comprise calcium phosphate or dense collagen. 6. The bone graft substitute of claim 1 wherein the bioactive agent further comprises rhBMP-2, BMP-4, rhBMP-4, BMP-6, rhBMP-6, BMP-7, rhBMP-7, GDF-5, rhGDF-5, functional fragments thereof, and combinations thereof. 7. The bone graft substitute of claim 1, wherein the plurality of reinforcement ribs comprise TCP (tri-calcium phosphate). 8. The bone graft substitute of claim 1, wherein the porous matrix comprises macropores that are 25 to 1000 microns in size and the porous matrix comprises micropores that are 0.1 to 5 microns in size. 9. A bone graft substitute comprising: a porous matrix, the porous matrix comprising collagen from about 10 wt. % to about 30 wt. % and calcium phosphate from about 55 wt. % to 89 wt. %, the calcium phosphate having a diameter from about 0.1 mm to about 5 mm; a reinforcing outer layer covering at least a portion of the porous matrix and having a plurality of openings providing access to the porous matrix, the openings occupying more than 50% of the reinforcing outer layer, the reinforcing outer layer having an inside surface; and reinforcement ribs disposed along the inside surface of the reinforcing outer layer, the reinforcement ribs being surrounded by and contacting the porous matrix on at least three sides and the inside surface of the reinforcing outer layer, and each of the reinforcement ribs comprising four side walls, the four side walls defining the boundary of a hollow region, the reinforcement ribs contacting at least one opening of the reinforcing outer layer that allows access to the porous matrix, the reinforcement ribs running perpendicular to a longitudinal axis of the bone graft substitute, the reinforcement ribs comprising holes to further expose the hollow region, wherein the reinforcement ribs comprise a biodegradable material and are integrally formed with the outer layer, and the porous matrix comprises a bioactive agent comprising BMP-2 at a concentration from about 1.0 to 4.0 mg/ml. 10. The bone graft substitute of claim 9 wherein the reinforcing outer layer is formed from highly cross-linked collagen. 11. The bone graft substitute of claim 9 wherein the reinforcement ribs comprise calcium phosphate or dense collagen. 12. The bone graft substitute of claim 9 wherein the bioactive agent further comprises rhBMP-2, BMP-4, rhBMP-4, BMP-6, rhBMP-6, BMP-7, rhBMP-7, GDF-5, rhGDF-5, functional fragments thereof, and combinations thereof.
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이 특허에 인용된 특허 (44)
Czernuszka Jan T. (Oxford GB2) Clarke Karen I. (Cheshire GB2), Bioactive material.
Trml Pertti (Tampere FIX) Rokkanen Pentti (Helsinki FIX) Oikarinen Valle J. (Helsinki FIX) Vainionp Seppo (Helsinki FIX) Helevirta Pertti (Tampere FIX), Bone graft implant.
Piez Karl A. (Menlo Park CA) Pharriss Bruce B. (Palo Alto CA) Chu George H. (Sunnyvale CA) Smestad Thomas L. (Palo Alto CA) Hendricks Diana (Brea CA), Calcium phosphate/atelopeptide collagen compositions for bone repair.
Yim Kalvin W. K. (N. andover MA) Huberty Michael C. (Andover MA) Northey ; Jr. Richard P. (Ipswich MA) Schrier Jay A. (Andover MA), Formulations for delivery of osteogenic proteins.
Smestad Thomas L. (Palo Alto CA) Prows Daniel (Santa Clara CA) Chu George H. (Sunnyvale CA) Hendricks Diana M. (Brea CA), Gamma irradiation of collagen/mineral mixtures.
Charles F. White ; Charles Flynn ; Alonzo D. Cook ; William R. Hardwick ; Ulf M. E. Wikesjo ; Robert C. Thomson, Methods and articles for regenerating bone or peridontal tissue.
Goldstein Israel (Paris FRX), Process for manufacturing organized collagen structures, particularly of human origin, and organized collagen structures.
Silver Frederick H. (103 Springbrook Dr. Bangor PA 18013) Christiansen David (270 Altamont Pl. Somerville NJ 08876), Process for the mineralization of collagen fibers, product produced thereby and use thereof to repair bone.
Tucker Marjorie M. (Holliston MA) Rueger David C. (Southborough MA) Sampath Kuber T. (Holliston MA), Terminally sterilized osteogenic devices and preparation thereof.
Piez Karl A. (Menlo Park CA) Pharriss Bruce B. (Palo Alto CA) Chu George H. (Sunnyvale CA) Smestad Thomas L. (Palo Alto CA) Hendricks Diana (Brea CA), Xenogeneic collagen/mineral preparations in bone repair.
Piez Karl A. (Menlo Park CA) Pharriss Bruce B. (Palo Alto CA) Chu George H. (Sunnyvale CA) Smestad Thomas L. (Palo Alto CA) Hendricks Diana (Palo Alto CA), Xenogeneic collagen/mineral preparations in bone repair.
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