Journal of Postgraduate Medicine
 Open access journal indexed with Index Medicus & ISI's SCI  
Users online: 3606  
Home | Subscribe | Feedback | Login 
About Latest Articles Back-Issues Article Submission Resources Sections Etcetera Contact
 
Read this article

 


    Article Cited by others

REVIEW ARTICLE

Bone graft substitutes: past, present, future.

Parikh S N

Year : 2002| Volume: 48| Issue : 2 | Page no: 142-8

   This article has been cited by
 
1 Efficacy of minimally invasive techniques for enhancement of fracture healing: Evidence today
Pountos, I., Georgouli, T., Kontakis, G., Giannoudis, P.V.
International Orthopaedics. 2010; 34(1): 3-12
[Pubmed]  [Google Scholar]
2 Collagen-embedded hydroxylapatite-beta-tricalcium phosphate-silicon dioxide bone substitute granules assist rapid vascularization and promote cell growth
Ghanaati, S.M., Thimm, B.W., Unger, R.E., Orth, C., Kohler, T., Barbeck, M., Müller, R., Kirkpatrick, C.J.
Biomedical Materials. 2010; 5(2): art 025004
[Pubmed]  [Google Scholar]
3 Physicochemical characterization of biomaterials commonly used in dentistry as bone substitutes - Comparison with human bone
Figueiredo, M., Henriques, J., Martins, G., Guerra, F., Judas, F., Figueiredo, H.
Journal of Biomedical Materials Research - Part B Applied Biomaterials. 2010; 92(2): 409-419
[Pubmed]  [Google Scholar]
4 Distance between external cortical bone and mandibular canal for harvesting ramus graft: A human cadaver study
Leong, D.J.-M., Li, J., Moreno, I., Wang, H.-L.
Journal of Periodontology. 2010; 81(2): 239-243
[Pubmed]  [Google Scholar]
5 Histological comparison of autograft, allograft-DBM, xenograft, and synthetic grafts in a trabecular bone defect: An experimental study in rabbits
Athanasiou, V.T., Papachristou, D.J., Panagopoulos, A., Saridis, A., Scopa, C.D., Megas, P.
Medical Science Monitor. 2010; 16(1): BR24-BR31
[Pubmed]  [Google Scholar]
6 Preparation of porous titanium and the surface modification with hydrothermal alkaline treatment
Wang, Y.-B., Lu, X., Feng, B., Qu, S.-X., Wang, J.-X.
Gongneng Cailiao/Journal of Functional Materials. 2009; 40(12): 2050-2053+2057
[Pubmed]  [Google Scholar]
7 Repair of compact bone critical sized defect with natural originated scaffold in rabbit
Kaveh, K., Ibrahim, R., Bakar, M.Z.A., Ibrahim, T.A.
Journal of Animal and Veterinary Advances. 2009; 8(8): 1616-1623
[Pubmed]  [Google Scholar]
8 Assessment of the proliferation of human mesenchymal stromal cells in the presence of human demineralised bone matrix
Gromošová, S., Rosocha, J., Horňák, P., Magin, R., Harvanová, D., Cibur, P., Raši, R.
Biologia. 2009; 64(6): 1247-1251
[Pubmed]  [Google Scholar]
9 Biopolymer-based growth factor delivery for tissue repair: From natural concepts to engineered systems
Uebersax, L., Merkle, H.P., Meinel, L.
Tissue Engineering - Part B: Reviews. 2009; 15(3): 263-289
[Pubmed]  [Google Scholar]
10 Osteogenic potential of autogenous bone associated with bone marrow osteoblastic cells in bony defects: A histomorphometric study
Lacerda, S.A., Lanzoni, J.F.A., Bombonato-Prado, K.F., Campos, A.A., Prata, C.A., Brentegani, L.G.
Implant Dentistry. 2009; 18(6): 521-529
[Pubmed]  [Google Scholar]
11 A biaxial rotating bioreactor for the culture of fetal mesenchymal stem cells for bone tissue engineering
Zhang, Z.-Y., Teoh, S.H., Chong, W.-S., Foo, T.-T., Chng, Y.-C., Choolani, M., Chan, J.
Biomaterials. 2009; 30(14): 2694-2704
[Pubmed]  [Google Scholar]
12 Fractures of the hip and osteoporosis: The role of bone substitutes
Lindner, T., Kanakaris, N.K., Marx, B., Cockbain, A., Kontakis, G., Giannoudis, P.V.
Journal of Bone and Joint Surgery - Series B. 2009; 91(3): 294-303
[Pubmed]  [Google Scholar]
13 The efficacy of Biobon™ and Ostim™ within metaphyseal defects using the Göttinger Minipig
Spies, C.K.G., Schnürer, S., Gotterbarm, T., Breusch, S.
Archives of Orthopaedic and Trauma Surgery. 2009; 129(7): 979-988
[Pubmed]  [Google Scholar]
14 Porosities and pore sizes in coralline calcium carbonate
Laine, J., Labady, M., Albornoz, A., Yunes, S.
Materials Characterization. 2008; 59(10): 1522-1525
[Pubmed]  [Google Scholar]
15 The study of the feasibility of segmental bone defect repair with tissue- engineered bone membrane: A qualitative observation
Zhao, L., Zhao, J.-L., Wan, L., Wang, S.-K.
Strategies in Trauma and Limb Reconstruction. 2008; 3(2): 57-64
[Pubmed]  [Google Scholar]
16 Mesenchymal cells for skeletal tissue engineering
Slater BJ, Kwan MD, Gupta DM, et al.
EXPERT OPINION ON BIOLOGICAL THERAPY. 2008; 8(7): 885-893
[Pubmed]  [Google Scholar]
17 An open-pored gelatin/hydroxyapatite composite as a potential bone substitute
Hillig WB, Choi Y, Murtha S, et al.
JOURNAL OF MATERIALS SCIENCE-MATERIALS IN MEDICINE. 2008; 19(1): 11-17
[Pubmed]  [Google Scholar]
18 Effect of calcium sulfate on osteopontin expression in U-2 osteosarcoma cells
Chang YC, Wang DJ, Lee SY, et al.
JOURNAL OF DENTAL SCIENCES. 2008; 3(1): 30-37
[Pubmed]  [Google Scholar]
19 Animal study of the bone substitute material OStim (TM) within osseous defects in Gottinger minipigs
Spies C, Schnurer S, Gotterbarm T, et al.
ZEITSCHRIFT FUR ORTHOPADIE UND UNFALLCHIRURGIE. 2008; 146(1): 64-69
[Pubmed]  [Google Scholar]
20 In vivo behaviour of two different biphasic ceramic implanted in mandibular bone of dogs
Farina NM, Guzon FM, Pena ML, et al.
JOURNAL OF MATERIALS SCIENCE-MATERIALS IN MEDICINE. 2008; 19(4): 1565-1573
[Pubmed]  [Google Scholar]
21 From adiposity to bone
Slater, B., Kwan, M., Wan, D., Longaker, M.
International Congress Series. 2007; 1302: 79-88
[Pubmed]  [Google Scholar]
22 Transplantation of engineered bone tissue using a rotary three-dimensional culture system
Hidaka M, Su GNC, Chen JKH, et al.
IN VITRO CELLULAR & DEVELOPMENTAL BIOLOGY-ANIMAL. 2007; 43 (2): 49-58
[Pubmed]  [Google Scholar]
23 Early weight bearing of porous HA/TCP (60/40) ceramics in vivo: A longitudinal study in a segmental bone defect model of rabbit
Balcik C, Tokdemir T, Senkoylu A, et al.
ACTA BIOMATERIALIA. 2007; 3 (6): 985-996
[Pubmed]  [Google Scholar]
24 Ectopic bone formation in bone marrow stem cell seeded calcium phosphate scaffolds as compared to autograft and (cell seeded) allograft
Eniwumide, J.O., Yuan, H., Cartmell, S.H., Meijer, G.J., De Bruijn, J.D.
European Cells and Materials. 2007; 14: 30-38
[Pubmed]  [Google Scholar]
25 Evaluation of substitutes for bone: Comparison of microradiographic and histological assessments
Thorwarth M, Wehrhan F, Srour S, et al.
BRITISH JOURNAL OF ORAL & MAXILLOFACIAL SURGERY. 2007; 45 (1): 41-47
[Pubmed]  [Google Scholar]
26 Osteoblastic response to collagen scaffolds varied in freezing temperature and glutaraldehyde crosslinking
Chen DC, Lai YL, Lee SY, et al.
JOURNAL OF BIOMEDICAL MATERIALS RESEARCH PART A. 2007; 80A (2): 399-409
[Pubmed]  [Google Scholar]
27 Porous titanium by fiber sintering and its biomimetic Ca-P coating
Zou, C., Zhang, E., Zeng, S.
Xiyou Jinshu Cailiao Yu Gongcheng/Rare Metal Materials and Engineering. 2007; 36(8): 1394-1397
[Pubmed]  [Google Scholar]
28 Mesenchymal stem cells in bone and cartilage repair: current status
Vilquin JT, Rosset P
REGENERATIVE MEDICINE. 2006; 1 (4): 589-603
[Pubmed]  [Google Scholar]
29 PRP modulates expression of bone matrix proteins in vivo without long-term effects on bone formation
Thorwarth M, Wehrhan F, Schultze-Mosgau S, et al.
BONE. 2006; 38 (1): 30-40
[Pubmed]  [Google Scholar]
30 Acceleration of de novo bone formation following application of autogenous bone to particulated anorganic bovine material in vivo
Thorwarth M, Schlegel KA, Wehrhan F, Srour S, Schultze-Mosgau S
ORAL SURGERY ORAL MEDICINE ORAL PATHOLOGY ORAL RADIOLOGY AND ENDODONTICS. 2006; 101 (3): 309-316
[Pubmed]  [Google Scholar]
31 In vitro generated extracellular matrix and fluid shear stress synergistically enhance 3D osteoblastic differentiation
Datta N, Pham QP, Sharma U, Sikavitsas VI, Jansen JA, Mikos AG
PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA. 2006; 103 (8): 2488-2493
[Pubmed]  [Google Scholar]
32 A comparison of bone formation in biphasic calcium phosphate (BCP) and hydroxyapatite (HA) implanted in muscle and bone of dogs at different time periods
Yuan H, van Blitterswijk CA, de Groot K, et al.
JOURNAL OF BIOMEDICAL MATERIALS RESEARCH PART A. 2006; 78A (1): 139-147
[Pubmed]  [Google Scholar]
33 Changes of mineralization of free autogenous bone grafts used for sinus floor elevation
Schlegel KA, Schultze-Mosgau S, Wiltfang J, et al.
CLINICAL ORAL IMPLANTS RESEARCH. 2006; 17 (6): 673-678
[Pubmed]  [Google Scholar]
34 A bioactive collagen-beta tricalcium phosphate scaffold for tissue engineering
Oprita EI, Moldovan L, Craciunescu O, et al.
CENTRAL EUROPEAN JOURNAL OF BIOLOGY. 2006; 1 (1): 61-72
[Pubmed]  [Google Scholar]
35 Biomaterials as scaffold for bone tissue engineering
Schicker, M., Seitz, H., Drosse, I., Seitz, S., Mutschler, W.
European Journal of Trauma. 2006; 32(2): 114-124
[Pubmed]  [Google Scholar]
36 A bioactive collagen-β tricalcium phosphate scaffold for tissue engineering
Oprita, E.I., Moldovan, L., Craciunescu, O., Buzgariu, W., Tardei, C., Zarnescu, O.
Central European Journal of Biology. 2006; 1(1): 61-72
[Pubmed]  [Google Scholar]
37 Transforming growth factor beta as a regulator of the regional expression of the immune cytokines in xenogeneic bone transplantation
Xu, H., Zhang, C.-L., Li, M.-Q., Chen, J.-H., Hu, Y.-Y., Xu, X.-Z.
Chinese Journal of Clinical Rehabilitation. 2006; 10(5): 152-154
[Pubmed]  [Google Scholar]
38 New technologies in tissue engineering
Kong DL, Zhang J, Ou LL, et al.
RARE METAL MATERIALS AND ENGINEERING. 2005; 34: 1-5
[Pubmed]  [Google Scholar]
39 Research directions for bone healing
Branfoot T
INJURY-INTERNATIONAL JOURNAL OF THE CARE OF THE INJURED. 2005; 36: 51-54
[Pubmed]  [Google Scholar]
40 Repair of mandible defect with tissue engineering bone in rabbits
Li Z, Li ZB
ANZ JOURNAL OF SURGERY. 2005; 75 (11): 1017-1021
[Pubmed]  [Google Scholar]
41 Expression of bone matrix proteins during de novo bone formation using a bovine collagen and platelet-rich plasma (prp) - An immunohistochemical analysis
Thorwarth, M., Rupprecht, S., Falk, S., Felszeghy, E., Wiltfang, J., Schlegel, K.A.
Biomaterials. 2005; 26(15): 2575-2584
[Pubmed]  [Google Scholar]
42 Cell-based therapies and tissue engineering
Rice MA, Dodson BT, Arthur JA, Anseth KS
OTOLARYNGOLOGIC CLINICS OF NORTH AMERICA. 2005; 38(2): 199-214
[Pubmed]  [Google Scholar]
43 Bioactivation of an anorganic bone matrix by P-15 peptide for the promotion of early bone formation
Thorwarth M, Schultze-Mosgau S, Wehrhan F, Kessler P, Srour S, Wiltfang J, Schlegel KA
BIOMATERIALS. 2005; 26 (28): 5648-5657
[Pubmed]  [Google Scholar]
44 Evolving concepts in bone tissue engineering
Cowan CM, Soo C, Ting K, et al.
CURRENT TOPICS IN DEVELOPMENTAL BIOLOGY. 2005; 66: 239-285
[Pubmed]  [Google Scholar]
45 Bone regeneration in osseous defects using a resorbable nanoparticular hydroxyapatite
Thorwarth, M., Schultze-Mosgau, S., Kessler, P., Wiltfang, J., Schlegel, K.A.
Journal of Oral and Maxillofacial Surgery. 2005; 63(11): 1626-1633
[Pubmed]  [Google Scholar]
46 Enhanced bone regeneration with a synthetic cell-binding peptide - in vivo results
Thorwarth M, Schultze-Mosgau S, Wehrhan F, et al.
BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS. 2005; 329 (2): 789-795
[Pubmed]  [Google Scholar]
47 The medium-term results of treatment with hydroxyapatite implants
Shibuya K, Kurosawa H, Takeuchi H, Niwa S
JOURNAL OF BIOMEDICAL MATERIALS RESEARCH PART B-APPLIED BIOMATERIALS. 2005; 75B (2): 405-413
[Pubmed]  [Google Scholar]
48 Micropatterning of proteins and mammalian cells on biomaterials
Wang YC, Ho CC
FASEB Journal. 2004; 18(1)
[Pubmed]  [Google Scholar]
49 Ectopic bone formation in rats: the importance of vascularity of the acceptor site
Hartman EHM, Vehof JWM, de Ruijter JE, et al.
BIOMATERIALS. 2004; 25 (27): 5831-5837
[Pubmed]  [Google Scholar]
50 Protein- and gene-based tissue engineering in bone repair
Kofron, M.D., Li, X., Laurencin, C.T.
Current Opinion in Biotechnology. 2004; 15(5): 399-405
[Pubmed]  [Google Scholar]
51 Fetal bone cells for tissue engineering
Montjovent MO, Burri N, Mark S, et al.
BONE. 2004; 35 (6): 1323-1333
[Pubmed]  [Google Scholar]
52 Update on new biomaterials and their use in reconstructive surgery
Pou, A.M.
Current Opinion in Otolaryngology and Head and Neck Surgery. 2003; 11(4): 240-244
[Pubmed]  [Google Scholar]
53 Surface modification of a novel porous titanium dioxide/glass composite
Erli HJ, von Walter M, Ragoss C, Steffens GCM, Paar O, Maier HR
Materialwissenschaft Und Werkstofftechnik. 2003; 34(12): 1058-1063
[Pubmed]  [Google Scholar]

 

Online since 12th February '04
© 2004 - Journal of Postgraduate Medicine
Official Publication of the Staff Society of the Seth GS Medical College and KEM Hospital, Mumbai, India
Published by Wolters Kluwer - Medknow