Source: http://www.google.com/patents/US6264701?dq=U.S.+patent+number+7,325,728
Timestamp: 2015-05-26 00:20:29
Document Index: 738484649

Matched Legal Cases: ['art 1', 'art 1', 'art 2', 'art 2', 'art 2', 'art 2', 'art 1', 'art 1', 'art 1', 'art 1', 'art 2', 'art 2', 'art 2', 'art 2', 'art 1', 'art 1']

Patent CitationsCited PatentFiling datePublication dateApplicantTitleUS2465357Aug 14, 1944Mar 29, 1949Upjohn CoTherapeutic sponge and method of makingUS2610625Oct 14, 1947Sep 16, 1952Armour & CoSurgical sponge and the preparation thereofUS2621145Aug 17, 1949Dec 9, 1952Sano Machteld EBone mat compositionsUS2703316Jun 5, 1951Mar 1, 1955Du PontPolymers of high melting lactideUS2758987Jun 5, 1952Aug 14, 1956Du PontOptically active homopolymers containing but one antipodal species of an alpha-monohydroxy monocarboxylic acidUS3463158Jan 9, 1967Aug 26, 1969American Cyanamid CoPolyglycolic acid prosthetic devicesUS3491760Jul 6, 1966Jan 27, 1970Braun Intern Gmbh BWound coveringsUS3636956May 13, 1970Jan 25, 1972Ethicon IncPolylactide suturesUS3688317Aug 25, 1970Sep 5, 1972Sutures IncVascular prostheticUS3739773Jun 28, 1971Jun 19, 1973American Cyanamid CoPolyglycolic acid prosthetic devicesUS3902497Mar 25, 1974Sep 2, 1975American Cyanamid CoBody absorbable sponge and method of makingUS3937223Apr 19, 1974Feb 10, 1976American Cyanamid CompanyCompacted surgical hemostatic feltUS4164560Jan 5, 1977Aug 14, 1979Folkman Moses JSystems for the controlled release of macromoleculesUS4181983Aug 29, 1977Jan 8, 1980Kulkarni R KAssimilable hydrophilic prosthesisUS4186448Nov 21, 1977Feb 5, 1980Brekke John HDevice and method for treating and healing a newly created bone voidUS4279249Oct 17, 1979Jul 21, 1981Agence Nationale De Valorisation De La Recherche (Anvar)New prosthesis parts, their preparation and their applicationUS4357312Jul 16, 1981Nov 2, 1982The Children's Hospital Medical CenterMethod of making prolonged release bodyUS4419340Nov 20, 1980Dec 6, 1983University Of DelawareControlled release of anticancer agents from biodegradable polymersUS4442655Jun 25, 1982Apr 17, 1984Serapharm Michael StroetmannFibrinogen-containing dry preparation, manufacture and use thereofUS4505266Apr 17, 1984Mar 19, 1985Massachusetts Institute Of TechnologyMethod of using a fibrous latticeUS4553272Feb 26, 1981Nov 19, 1985University Of PittsburghRegeneration of living tissues by growth of isolated cells in porous implant and product thereofUS4563350Oct 24, 1984Jan 7, 1986Collagen CorporationInductive collagen based bone repair preparationsUS4563489Feb 10, 1984Jan 7, 1986University Of CaliforniaBiodegradable organic polymer delivery system for bone morphogenetic proteinUS4578384Feb 15, 1984Mar 25, 1986The United States Of America As Represented By The Secretary Of The ArmyPolylactic-polyglycolic acids combined with an acidic phospholipid-lysozyme complex for healing osseous tissueUS4596574May 14, 1984Jun 24, 1986The Regents Of The University Of CaliforniaBiodegradable porous ceramic delivery system for bone morphogenetic proteinUS4608199Mar 20, 1984Aug 26, 1986Arnold CaplanBone protein purification processUS4609551Mar 20, 1984Sep 2, 1986Arnold CaplanProcess of and material for stimulating growth of cartilage and bony tissue at anatomical sitesUS4620327Jul 5, 1984Nov 4, 1986Caplan Arnold IProcess of adapting soluble bone protein for use in stimulating osteoinductionUS4636526Feb 19, 1985Jan 13, 1987The Dow Chemical CompanyComposites of unsintered calcium phosphates and synthetic biodegradable polymers useful as hard tissue prostheticsUS4642120Mar 21, 1984Feb 10, 1987Ramot University Authority For Applied Research And Industrial Development Ltd.Repair of cartilage and bonesUS4713076Apr 17, 1985Dec 15, 1987Klaus DraenertCoating composition and anchorage component for surgical implantsUS4749585Apr 11, 1986Jun 7, 1988University Of Medicine And Dentistry Of New JerseyAntibiotic bonded prosthesis and process for producing sameUS4752294Feb 26, 1985Jun 21, 1988Dan LundgrenElement for controlled growth into surgically intervened areasUS4846835Jun 15, 1987Jul 11, 1989Grande Daniel ATechnique for healing lesions in cartilageUS4938763Oct 3, 1988Jul 3, 1990Dunn Richard LBiodegradable in-situ forming implants and methods of producing the sameUS4962091May 23, 1986Oct 9, 1990Syntex (U.S.A.) Inc.Controlled release of macromolecular polypeptidesUS4964868Aug 27, 1987Oct 23, 1990Harrington Arthritis Research CenterKnee prosthesisUS5041138Apr 17, 1989Aug 20, 1991Massachusetts Institute Of TechnologyNeomorphogenesis of cartilage in vivo from cell cultureUS5061281Dec 17, 1986Oct 29, 1991Allied-Signal Inc.Bioresorbable polymers and implantation devices thereofUS5077049Jul 24, 1989Dec 31, 1991Vipont Pharmaceutical, Inc.Biodegradable system for regenerating the periodontiumUS5078744Sep 22, 1989Jan 7, 1992Bio-Products, Inc.Method of using tendon/ligament substitutes composed of long, parallel, non-antigenic tendon/ligament fibersUS5133755Jun 21, 1990Jul 28, 1992Thm Biomedical, Inc.Method and apparatus for diodegradable, osteogenic, bone graft substitute deviceUS5152791Feb 18, 1992Oct 6, 1992Olympus Optical Co., Ltd.Prosthetic artificial bone having ceramic layers of different porosityUS5288496May 15, 1990Feb 22, 1994Stolle Research & Development CorporationGrowth promoters for animalsUS5294446Jan 2, 1992Mar 15, 1994Southwest Research InstituteComposition and method of promoting hard tissue healingUS5324519Oct 28, 1991Jun 28, 1994Atrix Laboratories, Inc.Biodegradable polymer compositionUS5326357Mar 18, 1992Jul 5, 1994Mount Sinai Hospital CorporationReconstituted cartridge tissueUS5356429 *Oct 13, 1992Oct 18, 1994Seare William J JrBody pocket maintenance prosthesisUS5366508Jul 7, 1992Nov 22, 1994Thm Biomedical, IncApparatus for biodegradable, osteogenic, bone graft substitute deviceUS5372821Dec 15, 1993Dec 13, 1994Purdue Research FoundationGraft for promoting autogenous tissue growthUS5376118Mar 26, 1993Dec 27, 1994United States Surgical CorporationSupport material for cell impregnationUS5425639May 3, 1994Jun 20, 1995Anders; IrvingDental implant with shock absorbent cushioned interfaceUS5447725 *Jun 11, 1993Sep 5, 1995The Procter & Gamble CompanyMethods for aiding periodontal tissue regenerationUS5478739Oct 23, 1992Dec 26, 1995Advanced Tissue Sciences, Inc.Three-dimensional stromal cell and tissue culture systemUS5512475Apr 6, 1995Apr 30, 1996Advanced Tissue Sciences, Inc.Three-dimensional skin cell and tissue culture systemUS5520923Sep 19, 1994May 28, 1996Genetics Institute, Inc.Formulations for delivery of osteogenic proteinsUS5569463Jun 7, 1995Oct 29, 1996Harbor Medical Devices, Inc.Medical device polymerUS5607474Sep 20, 1993Mar 4, 1997Board Of Regents, University Of Texas SystemMulti-phase bioerodible implant/carrier and method of manufacturing and using sameUS5616338Apr 19, 1991Apr 1, 1997Trustees Of Columbia University In The City Of New YorkInfection-resistant compositions, medical devices and surfaces and methods for preparing and using sameUS5645084Jun 7, 1995Jul 8, 1997Danek Medical, Inc.Method for spinal fusion without decorticationUS5665114Aug 12, 1994Sep 9, 1997Meadox Medicals, Inc.Tubular expanded polytetrafluoroethylene implantable prosthesesUS5736160Oct 28, 1994Apr 7, 1998Thm Biomedical, Inc.Process and device for treating and healing a bone voidUS5830493Sep 28, 1995Nov 3, 1998Yamanouchi Pharmaceutical Co., Ltd.Bone-forming graftCA1274179A1Apr 30, 1986Sep 18, 1990Patricia D'amoreBioerodible articles useful as implants and prostheses having predictable degradation ratesDE3841397A1Dec 8, 1988Jun 21, 1990Melzer WolfgangPorous absorbable medicinal substance carrierEP0277678A1Jan 18, 1988Aug 10, 1988Stichting Science Park GroningenA graft suitable for treatment by reconstructive surgery and having tissue-specific porosity, and a process for making such graftEP0369034A1May 29, 1989May 23, 1990Sumitomo Cement Co. Ltd.Artificial bone structure for transplantation of boneEP0505634A1Apr 26, 1991Sep 30, 1992Kyocera CorporationA prosthesisEP0567391A1Apr 20, 1993Oct 27, 1993Bristol-Myers Squibb CompanyA biodegradable tgf-beta delivery system for bone regenerationGB2164024A Title not availableGB2175506A Title not availableJPH0323864A Title not availableJPS63238867A Title not availableWO1986000533A1Jul 10, 1985Jan 30, 1986Univ GroningenBone implantWO1988003785A1Nov 20, 1987Jun 2, 1988Joseph P VacantiChimeric neomorphogenesis of organs by controlled cellular implantation using artificial matricesWO1990009783A1Feb 22, 1990Sep 7, 1990Massachusetts Inst TechnologyDelivery system for controlled release of bioactive factorsWO1990015586A2Jun 1, 1990Dec 6, 1990Massachusetts Inst TechnologyBioerodible polymers for drug delivery in boneWO1993015694A1Feb 12, 1993Aug 19, 1993Univ TexasMulti-phase bioerodible implant/carrier and method of manufacturing and using sameWO1993020859A1Apr 16, 1993Oct 28, 1993Univ WashingtonSustained release compositions for delivery of growth factorsWO1994009722A1Oct 20, 1993May 11, 1994Thm Biomedical IncMethod and device for reconstruction of articular cartilage* Cited by examinerNon-Patent CitationsReference1An evaluation of two configurations of tricalcium phosphate for treating craniotomies, J. Biomedical Materials Research, vol. 23, No. 1, Jan. 1989, pp 17-29.2Application of Porous Ceramics for the Attachment of Load Bearing Internal Orthopedic Applications, J.J. Klawitter et al., Bioceramics-Engineering in Medicine (Part 1), J. Biomedical Materials Symposium, No. 2, pp. 161-129 (1972).3Application of Porous Ceramics for the Attachment of Load Bearing Internal Orthopedic Applications, J.J. Klawitter et al., Bioceramics—Engineering in Medicine (Part 1), J. Biomedical Materials Symposium, No. 2, pp. 161-129 (1972).4Attachment and survival of perichondrocytes in a porous polylactic acid (PLA) matrix: an in vitro study, by C.R. Chu, A.Z. Monosov, R.D. Coutts, and D. Amiel, Thirteenth Southern Biomedical Engineering Conference, Apr. 16-17, 1994, University of the District of Columbia, Washington, D.C.5Beta-tricalcium Phosphate Delivery System for Bone Morphogenetic Protein, Marshall R. Urist et al., Clinical Orthopaedics and Related Research, No. 187, pp. 277-280 (1984).6Bioceramics-Engineering in Medicine (Part 2), J. Biomedical Materials Symposium, R. Topazian et al., No. 2 (Part 2), pp. 311-332 (1972).7Bioceramics—Engineering in Medicine (Part 2), J. Biomedical Materials Symposium, R. Topazian et al., No. 2 (Part 2), pp. 311-332 (1972).8Bioresorbability and Biocompatibility of Aliphatic Polyesters, M. Vert et al., Journal of Materials Science: Materials in Medicine 3, (C)1992 Chapman & Hall, pp. 432-446.9Bioresorbability and Biocompatibility of Aliphatic Polyesters, M. Vert et al., Journal of Materials Science: Materials in Medicine 3, �1992 Chapman & Hall, pp. 432-446.10Calcium Phosphate Ceramics as Hard Tissue Prosthetics, Michael Jarcho, PH.D., Clinical Orthopaedics and Related Research, No. 157, pp. 259-278 (1981).11Calvaria Repair in Monkeys Using Alloplastic-Alloimplants, The 13th Annual Meeting of the Society for Biomaterials, Jun. 2-6, 1987, New York, New York.12Cartilage resurfacing of the rabbit knee, E. Billings, Jr. et al., Acta Orthop Scand 1990; 61(3), pp. 201-206.13Compatibility of Porous Ceramics with Soft Tissue; Application to Tracheal Prosthesis, S.F. Hulbert et al., Bioceramics-Engineering in Medicine (Part 1), J. Biomedical Materials Symposium, vol. 2, (Part 1), pp. 269-279 (1972).14Compatibility of Porous Ceramics with Soft Tissue; Application to Tracheal Prosthesis, S.F. Hulbert et al., Bioceramics—Engineering in Medicine (Part 1), J. Biomedical Materials Symposium, vol. 2, (Part 1), pp. 269-279 (1972).15Compressive Characteristics of Freeze-Dried Agar and Alginate Gel, A. Nussinovitch et al., Biotechnol Prog, pp. 101-104 (1993).16Controlled Release of TGF-B, From a Biodegradable Matrix for Bone Regeneration, J.Biomater, Sci. Polymer Edn., vol. 5 No. 1/2, pp 49-63, 1993.17Culture and differentiation of chondrocytes entrapped in alginate gels, by M. Grandolfo, P. D'Andrea, S. Paoletti, M. Martina, G. Silvestrini, E. Bonucci, and F. Vittur, Calcif. Tissue Int., 52, pp 42-48, (1993).18Culture-Expanded Human Priosteal-Derived Cells Exhibit Osteochondral Potential In Vivo, H. Nakahara et al., and Journal of Orthopaedic Research, vol. 9, No. 4, 1991, pp. 465-476.19David H. Cormach, "Ham's Histology", Nineth Edition, (C) 1987, J.B. Lippincutt Company, pp. 325-326.20David H. Cormach, "Ham's Histology", Nineth Edition, � 1987, J.B. Lippincutt Company, pp. 325-326.21Development of Ceramic and Ceramic Composite Devices for Maxillofacial Applications, T.D. Driskell et al., Bioceramics-Engineering in Medicine (Part 2), J. Biomedical Materials Symposium, No. 2 (Part 2), pp. 345-361 (1972).22Development of Ceramic and Ceramic Composite Devices for Maxillofacial Applications, T.D. Driskell et al., Bioceramics—Engineering in Medicine (Part 2), J. Biomedical Materials Symposium, No. 2 (Part 2), pp. 345-361 (1972).23Developmental Role of Hyaluronate, Bryan P. Toole, Connective Tissue Research, vol. 10, pp. 93-100 (1982).24Effect of fibronectin on the adhesion of an established cell line to a surface reactive biomaterial, T.L. Seitz et al., Journal of Biomedical Materials Research, vol. 16, pp. 195-207 (1982).25Effect of freeze-dried poly-L-lactic acid discs mixed with bone morphogenetic protein on the healing of rat skull defects by T. Miki, K. Harada, Y. Imai, and S. Enomoto, J. Oral Maxillofac. Surg., 52, pp 387-391, (1994).26Effect of Surgical Trauma and Polylactate Cubes and Granules on the Incidence of Alveolar Osteitis in Madibular Third Molar Extraction Wounds, John Brekke et al, J. Canad Dent Assn, No. 4, pp. 315-319 (1986).27Effect of the Structure of Poly(Glycol Monomethacrylate) Gel on the Calcification of Implants, L. Sprinel et al., Calc. Tiss., Res. 13, pp. 63-72 (1973).28Evidence for the existence of hyaluronectin-binding proteins in the plasma membranes, Sanjay Gupta et al., FEBS 13470, vol. 336, pp. 511-515 (1993).29Expression and modulation of CD44 variant isoforms in humans, by C.R. Mackay, H-J. Terpe, R. Stauder, W.L. Marston, H. Stark and U. G�nthert, J. Cell Bio., 124 (1&2), pp 71-82, (Jan. 1994).30Growth factor responsiveness of perichondrial cells in monolayer and attached to polylactic acid carriers, M. Lotz et al., American College of Rheumatology, Nov. 17-21, 1991.31Guidor, The Bioresorbable Matrix Barrier, pp. 1-33 (1993).32Healing of Hyaluronic Acid-Enriched Wounds: Histological Observations, G. Abatangelo et al., Journal of Surgical Research 35, pp. 410-416 (1983).33Human Biochemistry, The C.V. Mosby Company, St. Louis, pp 440, 1982.34Human Bone Morphongenetic Protein, Marshall R. Urist et al., Proceedings of the Society for Experimental Biology and Medicine 173, pp. 194-199 (1983).35Hyaluronate can function as a cell adhesion molecule and CD44 participates in hyaluronate recognition, by K. Miyake, C.B. Underhill, J. Lesley, and P.W. Kincade, J. Exp. Med., 172, pp 69-75, (1990).36Identification of hyaluronic acid binding sites in the extracellular domain of CD44, by R.J. Peach, D. Hollenbaugh, I. Stamenkovic, and A. Aruffo, J. Cell Bio., 122 (1), pp 257-264 (Jul. 1993).37In vivo degradation of massive poly (a-hydroxy acids): validation of in vitro findings, M. Therin et al., Biomaterials vol. 13, No. 9, (C)1992 pp. 594-600.38In vivo degradation of massive poly (a-hydroxy acids): validation of in vitro findings, M. Therin et al., Biomaterials vol. 13, No. 9, �1992 pp. 594-600.39In Vivo Osteochondrogenic Potential of Cultured Cells Derived From the Periosteum, H. Nakahara et al., Clinical Orthopaedics, Oct. 1990, vol. 259, pp. 223-232.40Influence of matricial molecules on growth and differentiation of entrapped chondrocytes, by H. Ramdi, C. Legar, and M. Lievremont, Experi. Cell Res., 207, pp 449-454, (1993).41Influence of polylactic acid mesh on the incidence of localized osteitis, John H. Brekke et al., Oral Surg., vol. 56, No. 3, pp. 240-245 (1983).42Laminated three-dimensional biodegradable foams for use in tissue engineering, by A.G. Mikos, G. Sarakinos, S.M. Leite, J.P. Vacanti, and R. Langer, Biomat., 14 (5), pp 323-330, (1993).43Mechanisms of polymer degradation in implantable devices. 2. Poly(DL-lactic acid), S.A.M. Ali et al., Journal of Biomedical Materials Research, vol. 27, (C)1993 pp. 1409-1418.44Mechanisms of polymer degradation in implantable devices. 2. Poly(DL-lactic acid), S.A.M. Ali et al., Journal of Biomedical Materials Research, vol. 27, �1993 pp. 1409-1418.45Neocartilage formation in vitro and in vivo using cells cultured on synthetic biodegradable polymers, by L.E. Freed, J.C. Marquis, A. Nohria, J. Emmanual, A.G. Mikos, and R. Langer, J. Biomed. Mat. Res., 27, pp 11-23, (1993).46New Insights on the Degradation of Bioresorbable Polymeric Devices Based on Lactic and Glycolic Acids, Vert et al., Clinical Materials 10, 1992 pp. 3-8.47Polylactic Acid Surgical Dressing Material Postoperative Therapy for Dental Extraction Wounds, J Canad. Dent. Assn. No. 7, 1986, pp 599-602.48Polymers, R. Langer, Bone Symposium '91, Oregon Health Sciences University, Portland, Oregon, Jul. 17-20, 1991, pp. 367-373.49Porous polymer implants for repair of full-thickness defects of articular cartilage: an experimental study in rabbit and dog, by J. Klompmaker, H.W.B. Jansen, R.P.H. Veth, H.K.L. Nielsen, J.H. de Groot, and A.J. Pennings, Biomat., 13 (9), pp 625-634, (1992).50Potential of Adult Human Perichondrium to Form Hyalin Cartilage In Vitro, S.K. Bulstra et al., Journal of Orthopaedic Research, vol. 8, No. 3, 1990, pp. 328-335.51Preparation of poly(glycolic acid) bonded fiber structures for cell attachment and transplantation, by A.G. Mikos, Y. Bao, L.G. Cima, D.E. Ingber, J.P. Vacanti, and R. Langer, J. Biomed. Mat. Res., 27, pp 183-189, (1993).52Rabbit articular chondrocytes in alginate gel: characterisation of immobilized preparations and potential applications, by C. Tamponnet, H. Ramdi, J-B. Guyot, and M. Lievremont, Appl. Microbiol. Biotechnol., 37, pp 311-315, (1992).53Reconstruction of rabbit knee articular defects with a polylactic acid matrix and periosteal grafts, R.D. Coutts et al., Combined Meeting/Orthopaedic Research Societies, Oct. 21-23, 1991.54Reconstruction of rabbit knee articular defects with a polylactic acid matrix, R.D. Coutts et al., Orthopaedic Research Society, Feb. 5-8, 1990.55Repair of Articular Surfaces by Allografts of Articular and Growth-Plate Cartilage, by J.E. Aston et al., The Journal of Bone and Joint Surgery, vol. 68-B, No. 1, Jan. 1986.56Repair of Rabbit Articular Surfaces with Allograft Chondrocytes Embedded in Collagen Gel, by S. Wakitani et al., The Journal of Bone and Joint Surgery, vol. 71-B, No. 1, Jan. 1989, pp. 74-86.57Resorbable Ceramic Implants, G.A. Graves et al., Bioceramics-Engineering in Medicine (Part 1), J. Biomedical Materials Symposium, No. 2, pp. 91-115 (1972).58Resorbable Ceramic Implants, G.A. Graves et al., Bioceramics—Engineering in Medicine (Part 1), J. Biomedical Materials Symposium, No. 2, pp. 91-115 (1972).59Rib Periocondrial Autografts in Full-Thickness Articular Cartilage Defects in Rabbits, R.D. Coutts et al., Clinical Orthopaedics, Feb. 1992, vol. 275, pp. 263-273.60Sato et al., Pharm. Res., 5 (1), 21-30, 1988, Porous biodegradable microspheres for controlled drug delivery.61Scientific American, Aug. 1992, Science and Business, pp. 114-116, Material Help, Bioengineers produce versions of body tissues, by Deborah Erickson.62Spence, Basic Human Anatomy, 1986, p. 63-65.63Structure and Function of Plasma Proteins, vol. 1, Plenum Press, London and New York, pp. 136-137.64Synthesis and turnover of proteoglycans by human and bovine adult articular chondrocytes cultured in alginate beads, by H.J. Hauselmann, M.B. Aydelotte, B.L. Schumacher, K.E. Kuettner, S.H. Gitelis, and E.J.-M.A. Thonar, Matrix, 12, pp 116-129, (1992).65The Effect of a TCP-Collagen Implant on the Healing of Articular Cartilage Defects in the Rabbit Knee Joint, T. Hogervorst et al., Journal of Applied Biomaterials, vol. 3, pp. 251-258, (1992).66The Effect of the Addition of Low Molecule Weight Poly(DL-lactide) on Drug Release from Biodegradable Poly(DL-lactide) Drug delivery Systems, R. Bodmeier et al., International Journal of Pharmaceutics, 51, pp. 1-9 (1989).67The Repair of Experimentally Produced Defects in Rabbit Articular Cartilage by Autologous Chondrocyte Transplantation, D.A. Grande et al., Journal of Orthopaedic Research, vol. 7, No. 2, 1989.68The Repair of Full-Thickness Articular Cartilage Defects, N. Kawabe et al., Clinical Orthopaedics and Related Research, No. 268, Jul., 1991, pp. 279-293.69The use of demineralized bone and rib perichondrium composite grafts for the repair of full thickness articular defects, H.P. von Schroeder et al., 36th Annual Mtg, Orthopaedic Research Society, Feb. 5-8, 1990, New Orleans.70The use of polylactic acid matrix and periosteal grafts for the reconstruction of rabbit knee articular defects, H.P. von Schroeder et al., Journal of Biomedical Materials Research, vol. 25, pp. 329-339 (1991).71The use of polylactic acid matrix and periosteal grafts for the reconstruction of rabbit knee articular defects, H.P. von Schroeder et al., Society For Biomaterials, May 20-23, 1990.72Towards a synthetic articular cartilage, by P.H. Corkhill, J.H. Fitton, and B.J. Tighe, J. Biomater. Sci. Polymer Edn., 4 (6), pp 615-630, (1993).73Urist et al., Proc. Natl. Acad. Sci. USA, vol. 81, Jan. 1984 pp. 371-375, Purification of Bovine Bone Morphogenetic Protein by Hydroxyapatite Chromatograph.Referenced byCiting PatentFiling datePublication dateApplicantTitleUS7122057Apr 12, 2002Oct 17, 2006Therics, LlcMethod and apparatus for engineered regenerative biostructures such as hydroxyapatite substrates for bone healing applicationsUS7326421Oct 21, 2003Feb 5, 2008Kensey Nash CorporationDevice and methods for sequential, regional delivery of multiple cytotoxic agents and directed assembly of wound repair tissuesUS7494664 *Sep 27, 2002Feb 24, 2009Japan Science And Technology AgencyComposite biomaterialsUS7828852 *Mar 9, 2007Nov 9, 2010Marctec, Llc.Inlaid articular implantUS7951394Feb 1, 2008May 31, 2011Kensey Nash CorporationDevice and methods of sequential, regional delivery of multiple cyctotoxic agents and directed assembly of wound repair tissuesUS7993365Jun 8, 2004Aug 9, 2011Morris Innovative, Inc.Method and apparatus for sealing accessUS8118832Jun 15, 2009Feb 21, 2012Morris Innovative, Inc.Method and apparatus for sealing accessUS8314084May 27, 2011Nov 20, 2012Kensey Nash CorporationDevice and methods for sequential, regional delivery of multiple cytotoxic agents and directed assembly of wound repair tissuesUS8974493Feb 21, 2012Mar 10, 2015Morris Innovative, Inc.Method and apparatus for sealing accessUS20110206648 *Dec 20, 2010Aug 25, 2011Mason James MGene-enhanced tissue engineeringWO2004037311A2Oct 21, 2003May 6, 2004John H BrekkeDevice and methods for sequential, regional delivery of multiple cytotoxic agents* Cited by examinerClassifications U.S. Classification623/23.72, 623/23.76International ClassificationA61F2/30, A61F2/02, A61F2/00, A61L27/20, A61F2/28Cooperative ClassificationA61F2002/30062, A61F2/30756, A61L27/20, A61F2250/0067, A61F2002/30677, A61F2/28, A61F2210/0004European ClassificationA61L27/20, A61F2/28Legal EventsDateCodeEventDescriptionDec 27, 2012FPAYFee paymentYear of fee payment: 12Aug 8, 2008FPAYFee paymentYear of fee payment: 8Sep 30, 2004FPAYFee paymentYear of fee payment: 4Feb 6, 2001ASAssignmentOwner name: KENSEY NASH CORPORATION, PENNSYLVANIAFree format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNOR:THM BIOMEDICAL, INC.;REEL/FRAME:011511/0218Effective date: 20010130Owner name: KENSEY NASH CORPORATION 55 EAST UWCHLAN AVENUE EXTOwner name: KENSEY NASH CORPORATION 55 EAST UWCHLAN AVENUEEXTOFree format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNOR:THM BIOMEDICAL, INC. /AR;REEL/FRAME:011511/0218Owner name: KENSEY NASH CORPORATION 55 EAST UWCHLAN AVENUE EXTFree format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNOR:THM BIOMEDICAL, INC.;REEL/FRAME:011511/0218Effective date: 20010130Owner name: KENSEY NASH CORPORATION 55 EAST UWCHLAN AVENUEEXTOFree format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNOR:THM BIOMEDICAL, INC. /AR;REEL/FRAME:011511/0218Effective date: 20010130RotateOriginal ImageGoogle Home - Sitemap - USPTO Bulk Downloads - Privacy Policy - Terms of Service - About Google Patents - Send FeedbackData provided by IFI CLAIMS Patent Services