1Wang JS,Aspenberg P.Basic fibroblast growth factor promotes bone ingrowth in porous hydroxyapatite[].Clinical Orthopaedics.1996
2Sciadini MF,Dawson JM,Johnson KD et al.Evaluation of bovine-derived bone protein with a natural coral carrier as a bone-graft substitute in a canine segmental defect model[].Journal of Orthoptera Research.1997
3James E,Fleming J,Charles NC et al.Bone cells and matrices in orthopedic tissue engineering[].Orthopedic Clinics of North America.2000
4Roudier M,Bouchon C,Rouvillain JL et al.The resorption of bone-implanted corals varies with porosity but also with the host reaction[].Journal of Biomedical Materials Research.1995
5Senpuku T,Ohgushi H,Okumura M et al.Osreogenic porenrial of allogeneic rat marrow cells in porous hydroxyapatite ceramics: A histological study[].Journal of Orthoptera Research.1996
6Kuhne JH,Bartl R,Frisch B et al.Bone formation in coralline hydroxyapatite: effects of pore size studied in rabbits[].Acta Orthopaedica Scandinavica.1994
7Sharon PD,Edwin CS,Ralph EH et al.Bone formation and implant degradation of coralline porous ceramics placed in bone and ectopic sites[].Journal of Oral and Maxillofacial Surgery.1995
8Bruder SP,Kraus KH,Massachusetts NG et al.The effect of implants loaded with autologous mesenchymal stem cells on the healing of canine segmental bone defects[].Journal of Bone and Joint Surgery British Volume.1998
9Vuola J,Taurio R,Goransson H et al.Compressive strength of calcium carbonate and hydroxyapatite implants after bone-marrow-induced osteogenesis[].Biomaterials.1998
10Jaber S,Klein BY,Leichter I et al.Tibial implant mineralization in rats is inversely relates oserum osteogenic capacity[].Bone.1995
