Biomimetic composite coating on rapid prototyped scaffolds for bone tissue engineering

Acta Biomaterialia

Volumn 7, Issue 2, 2011, Pages 809-820

  Arafat, M Tarik ^a,b   Lam, Christopher X F ^a   Ekaputra, Andrew K ^a   Wong, Siew Yee ^b   Li, Xu ^b   Gibson, Ian ^a,c  

^a NATIONAL UNIVERSITY OF SINGAPORE   (Singapore)

^b INSTITUTE OF MATERIALS RESEARCH AND ENGINEERING   (Singapore)

^c POLYTECHNIC INSTITUTE OF LEIRIA   (Portugal)

Author keywords

Biomimetic composite coating; Bone tissue engineering; Carbonated hydroxyapatite gelatin composite; Rapid prototyping scaffolds

Indexed keywords

BIOMECHANICS; BIOMIMETIC PROCESSES; BONE; COMPOSITE COATINGS; CYTOLOGY; ELECTROPHORESIS; EXTRUSION; FOURIER TRANSFORM INFRARED SPECTROSCOPY; HYDROXYAPATITE; MECHANICAL TESTING; SCAFFOLDS (BIOLOGY); SCANNING ELECTRON MICROSCOPY; TRANSCRIPTION; X RAY PHOTOELECTRON SPECTROSCOPY;

BIOMIMETIC COMPOSITE COATING; BIOMIMETIC COMPOSITES; BONE TISSUE ENGINEERING; CARBONATED HYDROXYAPATITE-GELATIN COMPOSITE; CARBONATED HYDROXYAPATITES; COMPOSITES COATING; GELATIN COMPOSITES; POLY(-CAPROLACTONE); RAPID PROTOTYPING SCAFFOLD; RAPID-PROTOTYPING;

POLYMERASE CHAIN REACTION;

BIOMIMETIC MATERIAL; GELATIN; HYDROXYAPATITE; TISSUE SCAFFOLD;

ARTICLE; BONE DEVELOPMENT; BONE MARROW; BONE TISSUE; CELL DIFFERENTIATION; CELL PROLIFERATION; CONFOCAL LASER MICROSCOPY; EXTRACELLULAR MATRIX; FOURIER TRANSFORM MASS SPECTROMETRY; GENE EXPRESSION; POLYMERASE CHAIN REACTION; PRIORITY JOURNAL; PROTEIN EXPRESSION; SCANNING ELECTRON MICROSCOPY; STROMA CELL; TISSUE ENGINEERING; WESTERN BLOTTING; X RAY PHOTOELECTRON SPECTROSCOPY;

SUS;

EID: 78650756970     PISSN: 17427061     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.actbio.2010.09.010     Document Type: Article

References (50)

1. P.X. Ma Scaffolds for tissue fabrication Mater Today 7 2004 30 40
2. D.W. Hutmacher Scaffolds in tissue engineering bone and cartilage Biomaterials 21 2000 2529 2543
3. D.W. Hutmacher, and S. Cool Concepts of scaffold-based tissue engineering - the rationale to use solid free-form fabrication techniques J Cell Mol Med 11 2007 654 669
4. K.F. Leong, C.M. Cheah, and C.K. Chua Solid freeform fabrication of three-dimensional scaffolds for engineering replacement tissues and organs Biomaterials 24 2003 2363 2378
5. D.W. Hutmacher, M. Sittinger, and M.V. Risbud Scaffold-based tissue engineering: rationale for computer-aided design and solid free-form fabrication systems Trends Biotechnol 22 2004 354 362
6. S.J. Hollister Porous scaffold design for tissue engineering Nat Mater 4 2005 518 524
7. F. Wang, L. Shor, A. Darling, S. Khalil, W. Sun, and S. Guceri Precision extruding deposition and characterization of cellular poly - caprolactone tissue scaffolds Rapid Prototyping J 10 2004 42 49
8. L. Shor, S. Guceri, X. Wen, M. Gandhi, and W. Sun Fabrication of three-dimensional polycaprolactone/hydroxyapatite tissue scaffolds and osteoblast-scaffold interactions in vitro Biomaterials 28 2007 5291 5297
9. Y.F. Zhou, D.W. Hutmacher, S.L. Varawan, and T.M. Lim In vitro bone engineering based on polycaprolactone and polycaprolactone-tricalcium phosphate composites Polym Int 56 2007 333 342
10. J.D. Kretlow, and A.G. Mikos Mineralization of synthetic polymer scaffolds for bone tissue engineering Tissue Eng 13 2007 927 938
11. S. Mann, D.D. Archibald, J.M. Didymus, T. Douglus, B.R. Heywood, and F.C. Meldrum Crystallization at inorganic-organic interfaces: biominerals and biomimetic synthesis Science 261 1993 1286 1292
12. T. Kokubo Ca, P-rich layer formed on high strength bioactive glass-ceramic A-W J Biomed Mater Res 24 1990 331 343
13. J.Y. Xiong, Y.C. Li, X.J. Wang, P.D. Hodgson, and C.E. Wen Mechanical properties and bioactive surface modification via alkali-heat treatment of a porous Ti-18Nb-4Sn alloy for biomedical applications Acta Biomater 4 2008 1963 1968
14. I.S. Park, U.J. Choi, H.K. Yi, B.K. Park, M.H. Lee, and T.S. Bae Biomimetic apatite formation and biocompatibility on chemically treated Ti-6Al-7Nb alloy Surf Interface Anal 40 2008 37 42
15. R.Z. LeGeros Biological and synthetic apatites P.W. Brown, B. Constantz, Hydroxyapatite and related materials 1994 CRC Press Boca Raton, FL 1 28
16. H. Chim, D.W. Hutmacher, A.M. Chou, A.L. Oliveira, R.L. Reis, and T.C. Lim A comparative analysis of scaffold material modifications for load-bearing applications in bone tissue engineering Int J Oral Max Surg 35 2006 928 934
17. L.T. de Jonge The osteogenic effect of electrosprayed nanoscale collage/calcium phosphate coatings on titanium Biomaterials 31 2010 1 9
18. Y. Chen, A.F.T. Mak, M. Wang, and J. Li Composite coating of bonelike apatite particles and collagen fibers on poly l-lactic acid formed through an accelerated biomimetic coprecipitation process J Biomed Mater Res Part B Appl Biomater 77 2006 315 322
19. M.C. Chang, C.C. Ko, and W.H. Douglas Preparation of hydroxyapatite- gelatin nanocomposite Biomaterials 24 2003 2853 2862
20. H.W. Kim, H.E. Kim, and V. Salih Stimulation of osteoblast responses to biomimetic nanocomposites of gelatin-hydroxyapatite for tissue engineering scaffolds Biomaterials 26 2005 5221 5230
21. X. Liu, L.A. Smith, J. Hu, and P.X. Ma Biomimetic nanofibrous gelatin/apatite composite scaffolds for bone tissue engineering Biomaterials 30 2009 2252 2258
22. E. Landi, G. Celotti, and A. Tampieri Carbonated hydroxyapatite as bone substitute J Eur Ceram Soc 23 2003 2931 2937
23. Arafat MT, Savalani MM, Gibson I. Improving the mechanical properties in tissue engineered scaffolds. In: Proceedings of the ASME international mechanical engineering congress and exposition. Boston, USA: Amer Soc Mechanical Engineers; 2008. p. 3-6.
24. A. Oyane, M. Uchida, C. Choong, J. Triffitt, J. Jones, and A. Ito Simple surface modification of poly(epsilon-caprolactone) for apatite deposition from simulated body fluid Biomaterials 26 2005 2407 2413
25. D. Schumann, A.K. Ekaputra, C.X. Lam, and D.W. Hutmacher Design of bioactive, multiphasic PCL/collagen type I and type II-PCL-TCP/collagen composite scaffolds for functional tissue engineering of osteochondral repair tissue by using electrospinning and FDM techniques Methods Mol Med 140 2007 101 124
26. A. Yeo, B. Rai, E. Sju, J.J. Cheong, and S.H. Teoh The degradation profile of novel, bioresorbable PCL-TCP scaffolds: an in vitro and in vivo study J Biomed Mater Res A 84 2008 208 218
27. J.J. Blaker, J.E. Gough, I. Maquet, I. Notingher, and A.R. Boccaccini In vitro evaluation of novel bioactive composites based on bioglass-filled polylactide foams for bone tissue engineering scaffolds J Biomed Mater Res 67 2003 1401 1411
28. S.L. Ishaug, G.M. Crane, M.J. Miller, A.W. Yasko, M.J. Yaszemski, and A.G. Mikos Bone formation by three-dimensional stromal osteoblast culture in biodegradable polymer scaffolds J Biomed Mater Res 36 1997 17 28
29. S. Liao, M. Ngiam, F. Watari, S. Ramakrishna, and C.K. Chan Systematic fabrication of nano-carbonated hydroxyapatite/collagen composites for biomimetic bone grafts Bioinsp Biomim 2 2004 37 41
30. L. Jongpoiboonkit, T. Franklin-Ford, and W.L. Murphy Mineral coated polymer microspheres for controlled protein binding and release Adv Mater 21 2009 1 4
31. S. Mobini, J. Javadpour, M. Hosseinalipour, M. Ghazi-Khansari, A. Khavandi, and H.R. Rezaie Synthesis and characterisation of gelatin-nano hydroxyapatite composite scaffolds for bone tissue engineering Adv Appl Ceram 107 2008 4 8
32. A.H. Touny, C. Laurencin, L. Nair, H. Allcock, and P.W. Brown Formation of composites comprised of calcium deficient HAp and cross-linked gelatin J Mater Sci Mater Med 19 2008 3193 3201
33. C. Combes, and C. Rey Adsorption of proteins and calcium phosphate materials bioactivity Biomaterials 23 2002 2817 2823
34. A. Boskey, and N.P. Camacho FT-IR imaging of native and tissue engineered bone and cartilage Biomaterials 28 2007 2464 2478
35. D. Gupta, J. Venugopal, S. Mitra, V.R. Giri Dev, and S. Ramakrishna Nanostructured biocomposite substrates by electrospinning and electrospraying for the mineralization of osteoblasts Biomaterials 30 2009 2085 2094
36. Y.W. Gu, B.Y. Tay, C.S. Lim, and M.S. Yong Biomimetic deposition of apatite coating on surface-modified NiTi alloy Biomaterials 26 2005 6916 6923
37. K. Anselme Osteoblast adhesion on biomaterials Biomaterials 21 2000 667 681
38. M.F. Pittenger Multilineage potential of adult human mesenchymal stem cells Science 284 1999 143 147
39. K.W. Ng, D.T. Leong, and D.W. Hutmacher The challenge to measure cell proliferation in two and three dimensions Tissue Eng 11 2005 182 191
40. Y. Chen, M.R. Cho, A.F.T. Mak, and J.S. Li Morphology and adhesion of mesenchymal stem cells on PLLA, apatite and apatite/collagen surfaces J Mater Sci Mater Med 19 2008 2563 2567
41. T. Komori Regulation of skeletal development by the Runx family of transcription factors J Cell Biochem 95 2005 445 453
42. T. Komori Regulation of osteoblast differentiation by runx2 Adv Exp Med Biol 658 2010 43 49
43. G.S. Stein Runx2 control of organization, assembly and activity of the regulatory machinery for skeletal gene expression Oncogene 23 2004 4315 4329
44. H.L. Merriman The tissue-specific nuclear matrix protein, NMP-2, is a member of the AML/CBF/PEBP2/runt domain transcription factor family: interactions with the osteocalcin gene promoter Biochemistry 34 1995 13125 13132
45. C. Banerjee, L.R. McCabe, J.Y. Choi, S.W. Hiebert, J.L. Stein, and G.S. Stein Runt homology domain proteins in osteoblast differentiation: AML3/CBFA1 is a major component of a bone-specific complex J Cell Biochem 66 1997 1 8
46. H. Sun The upregulation of osteoblast marker genes in mesenchymal stem cells prove the osteoinductivity of hydroxyapatite/tricalcium phosphate biomaterial Transplant Proc 40 2008 2645 2648
47. P. Muller Calcium phosphate surfaces promote osteogenic differentiation of mesenchymal stem cells J Cell Mol Med 12 2008 281 291
48. E. Donzelli Mesenchymal stem cells cultured on a collagen scaffold: in vitro osteogenic differentiation Arch Oral Biol 52 2007 64 73
49. N.G. Rim, J.H. Lee, S.I. Jeong, B.K. Lee, C.H. Kim, and H. Shin Modulation of osteogenic differentiation of human mesenchymal stem cells by poly[(l-lactide)-co-(-caprolactone)]/gelatin nanofibers Macromol Biosci 9 2009 795 804
50. S. Rammelt, E. Schulze, M. Witt, E. Petsch, A. Biewener, and W. Pompe Collagen type I increases bone remodelling around hydroxyapatite implants in the rat tibia Cells Tissues Organs 178 2004 146 157