Composite coatings for implants and tissue engineering scaffolds

Biomedical Composites

Volumn , Issue , 2009, Pages 127-177

  Wang, Min ^a  

^a UNIVERSITY OF HONG KONG   (Hong Kong)

Author keywords

[No Author keywords available]

Indexed keywords

BIODEGRADABLE POLYMERS; BIOMIMETICS; CELL ENGINEERING; COATING TECHNIQUES; COMPOSITE MATERIALS; FUNCTIONAL POLYMERS; ORTHOPEDICS; POLYMERIC IMPLANTS; SCAFFOLDS (BIOLOGY); TISSUE; TISSUE REGENERATION;

BIOACTIVE COMPOSITES; BIOLOGICAL PROPERTIES; BIOMIMETIC DEPOSITION; HUMAN BODY TISSUES; METALLIC BIOMATERIALS; MONOLAYER COATINGS; SURFACE MODIFICATION TECHNIQUES; TISSUE ENGINEERING SCAFFOLD;

COMPOSITE COATINGS;

EID: 77956037281     PISSN: None     EISSN: None     Source Type: Book    
DOI: 10.1533/9781845697372.2.127     Document Type: Chapter

References (138)

1. 7th World Biomaterials Congress Symposium on Developing New Biomaterials: the Composite Approach 2004, Symposium Organizers and Chairmen: Min Wang and Akiyoshi Osaka, Sydney, May.
2. 8th World Biomaterials Congress Symposium on Composite Scaffolds for Tissue Engineering 2008, Symposium Organizers and Chairmen: Min Wang and Jan P. Stegemann, Amsterdam, The Netherlands, May-June.
3. Agrawal C.M., Carter J., Ong J.L. Basics of polymeric scaffolds for tissue engineering. Journal of ASTM International 2006, 3(9). DOI: 10.1520/JAI100428.
4. Aksakal B., Hanyaloglu C. Bioceramic dip-coating on Ti-6Al-4V and 316L SS implant materials. Journal of Materials Science: Materials in Medicine 2008, 19:2097-2104.
5. Methods of tissue engineering 2002, Academic Press, San Diego. A. Atala, R.P. Lanza (Eds.).
6. Handbook of biomaterial properties 1998, Chapman &Hall, London. J. Black, G. Hastings (Eds.).
7. Blalock T.L., Bai X., Narayan R., Rabiei A. Effect of substrate temperature on mechanical properties of calcium phosphate coatings. Journal of Biomedical Materials Research - Part B Applied Biomaterials 2008, 85:60-67.
8. Bonfield W., Grynpas M.D., Tully A.E., Bowman J., Abram J. Hydroxyapatite reinforced polyethylene - a mechanically compatible implant material for bone replacement. Biomaterials 1981, 2:185-186.
9. Brunette D.M., Tengvall P., Textor M., Thomsen P. Titanium in medicine: material science, surface science, engineering, biological responses and medical applications 2001, Springer, Berlin.
10. Carsten J., Wange P., Grimm G., Goetz W. Bioactive coatings of glass-ceramics on metals. Glass Science and Technology: Glastechnische Berichte 1995, 68:117-122.
11. Chen L.J., Wang M. Production and evaluation of biodegradable composites based on PHB-PHV copolymer. Biomaterials 2002, 23:2631-2639.
12. Chen Y., Mak A.F.T., Wang M. Formation of apatite/collagen composite coating on poly(L-lactic acid) scaffolds in an accelerated biomimetic process 2005, 442. Memphis, TN, USA.
13. Chen Y., Mak A.F.T., Wang M. Accelerated formation of bone-like apatite on biodegradable polymer substrates. Key Engineering Materials 2005, 284-286:509-512.
14. Chen Y., Mak A.F.T., Li J., Wang M., Shum A.W.T. Formation of apatite on poly(β-hydroxy acid) in an accelerated biomimetic process. Journal of Biomedical Materials Research Part B: Applied Biomaterials 2005, 73B:68-76.
15. Chen Y., Mak A.F.T., Wang M., Li J. Composite coating of bone-like apatite particles and collagen fibers on poly L-lactic acid formed through an accelerated biomimetic coprecipitation process. Journal of Biomedical Materials Research Part B: Applied Biomaterials 2006, 77B:315-322.
16. Chen Y., Mak A.F.T., Wang M., Li J., Wong M.S. PLLA scaffolds with biomimetic apatite coating and biomimetic apatite/collagen composite coating to enhance osteoblast-like cells attachment and activity. Surface and Coatings Technology 2006, 201:575-580.
17. Chen Y., Mak A.F.T., Wang M. Formation of apatite within biodegradable scaffolds by an accelerated biomimetic process in the shaking condition and flow condition. Key Engineering Materials 2007, 334-335:1213-1216.
18. Chen Y., Mak A.F.T., Wang M., Li J., Wong M.S. In vitro behaviour of osteoblast-like cells on PLLA films with a biomimetic apatite or apatite/collagen composite coating. Journal of Materials Science: Materials in Medicine 2008, 19:2261-2268.
19. Chen Y., Cho M.R., Mak A.F.T., Li J.S., Wang M., Sun S. Morphology and adhesion of mesenchymal stem cells on PLLA, apatite and apatite/collagen surfaces. Journal of Materials Science: Materials in Medicine 2008, 19:2563-2567.
20. Chen Z.Q., Wang C.X., Guan L.M., Wang M. EEffects of heat treatment on the structure and dissolution of ion beam sputter deposited calcium phosphate coatings 1999, 283-289. Singapore.
21. De Groot K. Bioceramics of calcium phosphate 1983, CRC Press, Boca Raton.
22. De Groot K., Geesink R.G.T., Klein C.P.A.T., Serekian P. Plasma sprayed coatings of hydroxyapatite. Journal of Biomedical Materials Research 1987, 21:1375-1387.
23. De Groot K., Wen H.B., Liu Y., Layrolle P., Barrere F. Biomimetic coatings on orthopaedic implants: a review. Materials Research Society Symposium Proceedings 2000, 599:109-116.
24. Duan B., Wang M. Surface modification of three-dimensional Ca-P/PHBV nanocomposite scaffolds with gelatin 2008, Vancouver, Canada.
25. Duan B., Wang M. Immobilization of heparin on gelatin modified three-dimensional osteoconductive Ca-P/PHBV nanocomposite scaffolds 2009, Vancouver, Canada.
26. Duan B., Wang M., Zhou W.Y., Cheung W.L. Totally bioresorbable tissue engineering scaffolds based on Ca-P/PHBV nanocomposite and fabricated via selective laser sintering: Part II. Scaffold fabrication and characterization 2008, Amsterdam, The Netherlands, Paper #1153.
27. Duan B., Wang M., Zhou W.Y., Cheung W.L. Totally bioresorbable tissue engineering scaffolds based on Ca-P/PHBV nanocomposite and fabricated via selective laser sintering: Part III. Process optimization 2008, Amsterdam, The Netherlands, Paper #1309.
28. Duan B., Wang M., Zhou W.Y., Cheung W.L. Design and characteristics of selective laser sintered Ca-P/PHBV nanocomposite scaffolds for bone tissue engineering 2008, 75-79. Manila, The Philippines.
29. Gibson L.J., Ashby M.F. Cellular solids: structure and properties 1997, Cambridge University Press, Cambridge. 2nd Edn.
30. Heimann R.B. Plasma-spray coatings: principles and applications 1996, VCH, Weinheim.
31. Hench L.L. Bioceramics: from concept to clinic. Journal of the American Ceramic Society 1991, 74:1487-1510.
32. An introduction to bioceramics 1993, World Scientific, Singapore. L.L. Hench, J. Wilson (Eds.).
33. Huang J., Di Silvio L., Wang M., Rehman I., Ohtsuki C., Bonfield W. Evaluation of in vitro bioactivity and biocompatibility of Bioglass® reinforced polyethylene composites. Journal of Materials Science: Materials in Medicine 1997, 8:809-813.
34. Huang J., Di Silvio L., Wang M., Tanner K.E., Bonfield W. In vitro mechanical and biological assessment of hydroxyapatite reinforced polyethylene composite. Journal of Materials Science: Materials in Medicine 1997, 8:775-779.
35. Ishikawa K., Miyamoto Y., Nagayama M., Asaoka K. Blast coating method: new method of coating titanium surface with hydroxyapatite at room temperature. Journal of Biomedical Materials Research 1997, 38:129-134.
36. 3 substrate for bone substitutes. Journal of Biomedical Materials Research (Applied Biomaterials) 1998, 43:77-81.
37. Kawashita M., Itoh S., Miyamoto K., Takaoka G.H. Apatite formation on titanium substrates by electrochemical deposition in metastable calcium phosphate solution. Journal of Materials Science: Materials in Medicine 2008, 19:137-142.
38. Kaysser W.A., Ilschner B. FGM research activities in Europe. MRS Bulletin 1995, 20:22-26.
39. Koizumi M., Niino M. Overview of FGM research in Japan. MRS Bulletin 1995, 20:19-21.
40. Kokubo T. Bioactivity of glasses and glass-ceramics. Bone-bonding biomaterials 1992, Reed Healthcare Communications, Leiderdorp. P. Ducheyne, T. Kokubo, C.A. Van Blitterswijk (Eds.).
41. Kokubo T. Apatite formation on surfaces of ceramics, metals and polymers in body environment. Acta Materialia 1998, 46:2519-2527.
42. Kokubo T., Kushitani H., Sakka S., Kitsugi T., Yamamuro T. Solutions able to reproduce in vivo surface-structure changes in bioactive glass-ceramic A-W. Journal of Biomedical Materials Research 1990, 24:721-734.
43. Kokubo T., Takadama H. How useful is SBF in predicting in vivo bone bioactivity?. Biomaterials 2006, 27:2907-2915.
44. Kumar R.R., Wang M. Manufacture and characterisation of functionally graded bioactive coating 1999, 133-140. Singapore.
45. Kumar R.R., Wang M. Developing hydroxyapatite/glass functionally graded coating for clinical applications 2000, 265-266. Singapore.
46. Kumar R.R., Wang M. Functionally graded bioactive coatings of hydroxyapatite/titanium oxide composite system. Materials Letters 2002, 55:133-137.
47. Kumar R.R., Wang M. Modulus and hardness evaluations of sintered bioceramic powders and functionally graded bioactive composites by nano-indentation technique. Materials Science and Engineering A: Structural Materials: Properties, Microstructure and Processing 2002, 338:230-236.
48. Kumar R.R., Wang M., Ducheyne P. Production and evaluation of hydroxyapatite/tricalcium phosphate functionally graded coating. Key Engineering Materials 2001, 192-195:231-234.
49. Lacefield W.R. Hydroxylapatite coatings. An introduction to bioceramics 1993, World Scientific, Singapore. L.L. Hench, J. Wilson (Eds.).
50. Principles of tissue engineering 2000, Academic Press, San Diego. 2nd Edn. R.P. Lanza, R. Langer, J. Vacanti (Eds.).
51. Legeros J.P., Wang J., Garofalo E., Salgado T., Legeros R.Z. Ti alloy surface modifications and coatings: an update. Key Engineering Materials 2008, 361-363:741-744.
52. Leong K.F., Cheah C.M., Chua C.K. Solid freeform fabrication of three-dimensional scaffolds for engineering replacement tissues and organs. Biomaterials 2003, 24:2363-2378.
53. 2 surface supporting biomimetic growth of apatite. Biomaterials 2005, 26:6143-6150.
54. Lu X., Leng Y. TEM study of calcium phosphate precipitation on bioactive titanium surfaces. Biomaterials 2004, 25:1779-1786.
55. Lu X., Leng Y. Theoretical analysis of calcium phosphate precipitation in simulated body fluid. Biomaterials 2005, 26:1097-1108.
56. Ma Z., Mao Z., Gao C. Surface modification and property analysis of biomedical polymers used for tissue engineering. Colloids and Surfaces B: Biointerfaces 2007, 60:137-157.
57. WTEC panel on tissue engineering research: final report 2003, Academic Press, San Diego. L.V. Mcintire (Ed.).
58. Monma H. Electrochemical deposition of calcium-deficient apatite on stainless steel substrate. Journal of the Ceramic Society of Japan (Int'l Edn.) 1993, 101:718-720.
59. Mroz W., Jedynski M., Prokopiuk A., Slosarczyk A., Paszkiewicz Z. Characterization of calcium phosphate coatings doped with Mg, deposited by pulsed laser deposition technique using ArF excimer laser. Micron 2009, 40:140-142.
60. Nakamura S., Hamagami J.I., Yamashita K. Hydrothermal crystallization of carbonate-containing hydroxyapatite coatings prepared by radiofrequency-magnetron sputtering method. Journal of Biomedical Materials Research - Part B Applied Biomaterials 2007, 80:102-106.
61. Ni J., Wang M. In vitro evaluation of hydroxyapatite reinforced polyhydroxybutyrate composite. Materials Science and Engineering C: Biomimetic Materials, Sensors and Systems 2002, 20:101-109.
62. Nicodemus G.D., Bryant S.J. Cell encapsulation in biodegradable hydrogels for tissue engineering applications. Tissue Engineering - Part B: Reviews 2008, 14:149-165.
63. Ohtsuki C., Kushitani H., Kokubo T., Kotani S., Yamamuro T. Apatite formation on the surface of Ceravital-type glass-ceramic in the body. Journal of Biomedical Materials Research 1991, 25:1363-1370.
64. Ong J.L., Lucas L.C. Post-deposition heat treatments for ion beam sputter deposited calcium phosphate coatings. Biomaterials 1994, 15:337-341.
65. Ong J.L., Lucas L.C., Lacefield W.R., Rigney E.D. Structure, solubility and bond strength of thin calcium phosphate coatings produced by ion beam sputter deposition. Biomaterials 1992, 13:249-254.
66. Bioceramics 1989, Ishiyaku EuroAmerica, Tokyo. H. Oonishi, H. Aoki, K. Sawai (Eds.).
67. Patterson T., Leon A., Jayaraj B., Liu J., Sohn Y.H. Thermal cyclic lifetime and oxidation behavior of air plasma sprayed CoNiCrAlY bond coats for thermal barrier coatings. Surface and Coatings Technology 2008, 203:437-441.
68. Pawlowski L. The science and engineering of thermal spray coatings 2008, John Wiley &Sons, Chichester. 2nd Edn.
69. Pereira M.M., Jones J.R., Hench L.L. Bioactive glass and hybrid scaffolds prepared by sol-gel method for bone tissue engineering. Advances in Applied Ceramics 2005, 104:35-42.
70. Plant S.D., Grant D.M., Leach L. Behaviour of human endothelial cells on surface modified NiTi alloy. Biomaterials 2005, 26:5359-5367.
71. Prado M., Zavaglia C. Bioceramics 2009, 21. Trans Tech Publications, Switzerland.
72. Biomaterials science: an introduction to materials in medicine 2004, Academic Press, San Diego. 2nd Edn. B.D. Ratner, A.S. Hoffman, F.J. Schoen, J.E. Lemons (Eds.).
73. Shah R., Sinanan A.C.M., Knowles J.C., Hunt N.P., Lewis M.P. Craniofacial muscle engineering using a 3-dimensional phosphate glass fiber construct. Biomaterials 2005, 26:1497-1505.
74. Singh R.K., Qian F., Nagabushnam V., Damodaran R., Moudgil B. Excimer laser deposition of hydroxyapatite thin films. Biomaterials 1994, 15:522-528.
75. Tissue Engineering 1988, Alan R. Liss Inc, New York. R. Skalak, C.F. Fox (Eds.).
76. Sultana N., Wang M. PHB- and PHBV-based osteoconductive composite scaffolds produced through an emulsion freeze-drying process 2006, 201-208. Faenza, Italy.
77. Sultana N., Wang M. Fabrication and characterisation of polymer and composite scaffolds based on polyhydroxybutyrate and polyhydroxybutyrate-co-hydroxyvalerate. Key Engineering Materials 2007, 334-335:1229-1232.
78. Sultana N., Wang M. Fabrication of HA/PHBV composite scaffolds through the emulsion freezing / freeze-drying process and characterisation of the scaffolds. Journal of Materials Science: Materials in Medicine 2008, 19:2555-2561.
79. Sultana N., Wang M. PHBV/PLLA-based composite scaffolds containing nano-sized calcium phosphate particles for bone tissue engineering. Journal of Experimental Nanoscience 2008, 3:121-132.
80. Sultana N., Wang M. Coating PHBV- and PHBV/PLLA-based scaffolds with collagen and characteristics of collagen-coated scaffolds 2009, 2009, Hong Kong.
81. 2 composite coatings on Ti and NiTi shape memory alloy and their characterization. Applied Surface Science 2008, 255:396-400.
82. Sun T., Wang M. Chemical stability of the titania layer formed synthetically on NiTi shape memory alloy as a barrier to prevent nickel ion release 2008, 541-544. Shenzhen, China.
83. Sun T., Wang M. Characteristics of the titania layer formed on NiTi shape memory alloy through a low temperature process 2008, Amsterdam, The Netherlands, Paper #1745.
84. Sun T., Wang M. Characteristics and chemical stability of bioactive titania gel formed on Ti, Ti-6Al-4V and NiTi SMA through a low temperature oxidation process. Advanced Materials Research 2008, 47-50:1403-1406.
85. Sun T., Wang M. Apatite/TiO2 composite coatings formed on Ti, Ti-6Al-4V and NiTi shape memory alloy 2008, Singapore, Paper BM8010.
86. 2 composite coatings formed on Ti and NiTi shape memory alloy. Applied Surface Science 2008, 255:404-408.
87. Sun T., Wang M. Electrochemically deposited apatite coating on NiTi shape memory allo 2009, Hong Kong.
88. Sun T., Wong J.H.W., Wang M. Fabrication of an apatite/collagen composite coating on the NiTi shape memory alloy through electrochemical deposition and coating characterisation 2008, Gold Coast, Australia.
89. Sun T., Wang L.P., Wang M. Fabrication and characterization of Ti-O/Ti composite coatings on NiTi shape memory alloy for medical applications 2008, Hong Kong.
90. Tanaskovic D., Jokic B., Socol G., Popescu A., Mihailescu I.N., Petrovic R., Janackovic D.J. Synthesis of functionally graded bioactive glass-apatite multistructures on Ti substrates by pulsed laser deposition. Applied Surface Science 2007, 254:1279-1282.
91. Tong H.W., Wang M. PHBV-based composite nanofibers for bone tissue engineering 2006, 192-200. Faenza, Italy.
92. Tong H.W., Wang M. Biodegradable microfibers containing hydroxyapatite nanospheres for bone tissue engineerin 2007, 583. Chicago, IL, USA.
93. Tong H.W., Wang M. Electrospinning of aligned biodegradable polymer fibers and composite fibers for tissue engineering applications. Journal of Nanoscience and Nanotechnology 2007, 7:3834-3840.
94. Wang C.K., Chern Lin J.H., Ju C.P., Ong H.C., Chang RPH. Structural characterization of pulsed laser-deposited hydroxyapatite film on titanium substrate. Biomaterials 1997, 18:1331-1338.
95. Wang C.X., Wang M. Electrochemical impedance study of the nucleation and growth of apatite on titanium pretreated with NaOH solution 2001, 110. Minnesota, USA.
96. Wang C.X., Wang M. Mechanism of apatite formation on titanium treated with alkaline solution 2001, 317. Minnesota, USA.
97. Wang C.X., Wang M. Electrochemical impedance spectroscopy study of the nucleation and growth of apatite on chemically treated pure titanium. Materials Letters 2002, 54:30-36.
98. Wang C.X., Wang M. Investigation into the formation of bone-like apatite on pretreated metals using electrochemical impedance spectroscopy. Key Engineering Materials 2003, 240-242:19-22.
99. Wang C.X., Chen Z.Q., Wang M. Bioactive glass coating produced by ion beam sputtering/mixing deposition: its manufacture, structure and properties 2000, 263-264. Singapore.
100. Wang C.X., Chen Z.Q., Wang M., Liu Z.Y., Wang P.L. Ion-beam-sputtering/mixing deposition of calcium phosphate coatings: I. Effects of ion mixing beams. Journal of Biomedical Materials Research 2001, 55:587-595.
101. Wang C.X., Chen Z.Q., Wang M. Calcium phosphate coatings produced by ion beam sputtering/mixing deposition: their manufacture, structure and in vitro properties. Key Engineering Materials 2001, 192-195:95-98.
102. Wang C.X., Chen Z.Q., Wang M. X-ray photoelectron spectroscopy analysis of ion beam sputter deposited calcium phosphate coating. Journal of Materials Science Letters 2001, 20:1277-1279.
103. Wang C.X., Chen Z.Q., Wang M. In vitro response of the osteoblastic cells to thin HPPA bioceramic coatings 2008, Faenza, Italy.
104. Wang C.X., Chen Z.Q., Wang M., Liu Z.Y., Wang P.L., Zheng S.X. Functionally graded calcium phosphate coatings produced by ion beam sputtering/mixing deposition. Biomaterials 2001, 22:1619-1626.
105. Wang C.X., Chen Z.Q., Guan L.M., Wang M., Liu Z.Y., Wang P.L. Fabrication and characterisation of graded calcium phosphate coatings by ion beam sputtering/mixing deposition. Nuclear Instruments and Methods in Physics Research 2001, B179:364-372.
106. Wang C.X., Chen Z.Q., Wang M. Fabrication and characterisation of bioactive glass coatings produced by the ion beam sputter deposition technique. Journal of Materials Science: Materials in Medicine 2002, 13:247-251.
107. Wang C.X., Wang M., Zhou X. Electrochemical impedance spectroscopy study of the nucleation and growth of apatite on chemically treated titanium. Langmuir 2002, 18:7641-7647.
108. Wang C.X., Wang M., Zhou X. Nucleation and growth of apatite on chemically treated titanium alloy: an electrochemical impedance spectroscopy study. Biomaterials 2003, 24:3069-3077.
109. Wang C.X., Zhou Z., Wang M. Mechanism of apatite formation on pure titanium treated with alkaline solution. Bio-Medical Materials and Engineering 2004, 14:5-11.
110. Wang M. Recent research developments in biomaterials. Bioceramics 2002, 33-76. Research Signpost, Trivandrum. Y. Ikada (Ed.).
111. Wang M. Developing bioactive composite materials for tissue replacement. Biomaterials 2003, 24:2133-2151.
112. Wang M. Biomaterials and Tissue Engineering. Bioactive Materials and Processing 2004, 1-82. Springer, Berlin. D.-L. Shi (Ed.).
113. Wang M., Hench L.L., Bonfield W. Bioglass®/high density polyethylene composites for soft tissue applications: preparation and evaluation. Journal of Biomedical Materials Research 1998, 42:577-586.
114. Wang M., Yang X.Y., Khor K.A., Wang Y. Preparation and characterisation of bioactive monolayer and functionally graded coatings. Journal of Materials Science: Materials in Medicine 1999, 10:269-273.
115. Wang M., Chen L.J., Ni J., Weng J., Yue C.Y. Manufacture and evaluation of bio-active and biodegradable materials and scaffolds for tissue engineering. Journal of Materials Science: Materials in Medicine 2001, 12:855-860.
116. Wang M., Ni J., Weng J. In vitro bioactivity and mechanical performance of tricalcium phosphate/polyhydroxybutyrate composites. Key Engineering Materials 2002, 218-220:429-432.
117. Wang M., Ni J. In vitro evaluation of bioactive and biodegradable composites based on polyhydroxybutyrate. Annales de Chimie - Science des Matériaux 2004, 29:17-28.
118. Wang M., Ye X.J., Khor K.A. Assessing interfacial properties of plasma sprayed bioceramic coating on metal substrate using indentation techniques 2004, 1789. Sydney, Australia.
119. Weng J., Wang M. In vitro formation of bone-like apatite on the surface of solution-cast partially crystalline hydroxyapatite/chitin composite. Key Engineering Materials 2001, 192-195:657-660.
120. Weng J., Wang M., Zhang X.D., De Groot K. Biomimetic mineralization on plasma sprayed apatite particles and coatings in different simulated physiological fluids. Key Engineering Materials 2001, 192-195:299-302.
121. Weng J., Wang M., Chen J. Plasma sprayed calcium phosphate particles with high bioactivity and their use in bioactive scaffolds. Biomaterials 2002, 23:2623-2629.
122. Weng J., Feng B., Wang M., Zhang X. Nucleation and growth of bone-like apatite on surfaces of metals, ceramics and polymers in simulated body fluids. Key Engineering Materials 2005, 288-289:277-280.
123. Biomaterials 1980 1982, John Wiley &Sons, Chichester. G.D. Winter, D.F. Gibbons, H. Plenk (Eds.).
124. Witte F., Ulrich H., Rudert M., Willbold E. Biodegradable magnesium scaffolds: Part I: appropriate inflammatory response. Journal of Biomedical Materials Research - Part A 2007, 81:748-756.
125. Wolke J.G.C., Der Waerden V.J.P.C., De Groot K., Jansen J.A. Stability of radiofrequency magnetron sputtered calcium phosphate coatings under cyclically loaded conditions. Biomaterials 1997, 18:483-488.
126. Wu J.M., Wang M., Hayakawa S., Tsuru K., Osaka A. Direct deposition of rutile layer on polymer substrates to induce bioactivity in vitro. Key Engineering Materials 2006, 309-311:419-422.
127. Wu J.M., Wang M., Hayakawa S., Tsuru K., Osaka A. In vitro bioactivity of hydrogen peroxide modified titanium: effects of surface morphology and film thickness. Key Engineering Materials 2006, 309-311:407-410.
128. Wu J.M., Wang M., Li Y.W., Zhao F.D., Ding X.J., Osaka A. Crystallization of amorphous titania gel by hot water aging and induction of in vitro apatite formation by crystallized titania. Surface and Coatings Technology 2006, 201:755-761.
129. Wu J.M., Zhao F., Li Y., Zhang S., Wang M., Osaka A. Influence of film thickness on in vitro bioactivity of thin anatase films produced through direct deposition from an aqueous titanium tetrafluoride solution. Surface and Coatings Technology 2006, 201:3181-3187.
130. Wu J.M., Wang M., Osaka A. Bioactive composite coating on titanium implants for hard tissue repair. Key Engineering Materials 2007, 334-335:1249-1252.
131. Shape memory implants 2000, Springer, Berlin. L. Yahia (Ed.).
132. Handbook of bioactive ceramics 1990, CRC Press, Boca Raton, Vol.1 &Vol.2. T. Yamamuro, L.L. Hench, J. Wilson (Eds.).
133. Yang X.Y., Wang M., Khor K.A., Wang Y. Mechanical and structural characterisation of bioactive coatings. Bioceramics 1998, 11:227-230.
134. Ye X.J., Wang M., Khor K.A. Influence of surface conditions on adhesion of hydroxyapatite coating to titanium substrate 1999, 291-298. Singapore.
135. Yeo I.S., Han J.S., Yang J.H. Biomechanical and histomorphometric study of dental implants with different surface characteristics. Journal of Biomedical Materials Research - Part B Applied Biomaterials 2008, 87:303-311.
136. Zhou W.Y., Cheung W.L., Wang M. Biodegradable composite scaffolds produced by selective laser sintering 2007, 170. Chicago, IL, USA.
137. Zhou W.Y., Wang M., Cheung W.L., Yuen C.K., Ip W.Y. Selective laser sintered meso-porous PLLA and PLLA/CHAp nanocomposite scaffolds for bone tissue engineering 2008, Amsterdam, The Netherlands, Paper #3172.
138. Zhou W.Y., Lee S.H., Wang M., Cheung W.L., Ip W.Y. Selective laser sintering of porous tissue engineering scaffolds from poly(L-lactide)/carbonated hydroxyapatite nanocomposite microspheres. Journal of Materials Science: Materials in Medicine 2008, 19:2535-2540.