Preparation of 3D interconnected macroporous hydroxyapatite scaffolds by PVA assisted foaming method

Ceramics International

Volumn 40, Issue 1 PART B, 2014, Pages 1789-1796

  Wang, Wei ^a   Chu, Baoshuai ^b   Lin, Chunqing ^b   Chen, Si ^b   Ru, Hongqiang ^b   Yue, Xinyan ^a   Jia, Quanli ^c  

^a NORTHEASTERN UNIVERSITY   (China)

^b NORTHEASTERN UNIVERSITY   (China)

^c ZHENGZHOU UNIVERSITY   (China)

Author keywords

B. Porosity; C. Strength; D. Apatite

Indexed keywords

COMPRESSIVE STRENGTH; PHOSPHATE MINERALS; PORE SIZE; SINTERING; TISSUE ENGINEERING;

BONE TISSUE ENGINEERING; C. STRENGTH; CHEMICAL PROCESS; MACRO-POROSITY; MACROPOROUS STRUCTURES; MECHANICAL STIRRING; SIMPLE METHOD; SIMPLE MODIFICATIONS;

HYDROXYAPATITE;

EID: 84887998572     PISSN: 02728842     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.ceramint.2013.07.079     Document Type: Article

References (45)

1. R.M. Pilliar, M.J. Filiaggi, J.D. Wells, M.D. Grynpas, and R.A. Kandel Porous calcium polyphosphate scaffolds for bone substitute applications - in vitro characterization Biomaterials 22 2001 963 972
2. R.W. Bucholz, A. Carlton, and R.E. Holmes Hydroxyapatite and tricalcium phosphate bone graft substitutes Orthopedic Clinics of North America 18 1987 323 334
3. P. Ducheyne, and Q. Qiu Bioactive ceramics: the effect of surface reactivity on bone formation and bone cell function Biomaterials 20 1999 2287 2303
4. V. Karageorgiou, and D. Kaplan Porosity of 3D biomaterial scaffolds and osteogenesis Biomaterials 26 2005 5474 5491
5. Y. Gonda, K. Ioku, Y. Shibata, T. Okuda, G. Kawachi, M. Kamitakahara, H. Murayama, K. Hideshima, S. Kamihira, I. Yonezawa, H. Kurosawa, and T. Ikeda Stimulatory effect of hydrothermally synthesized biodegradable hydroxyapatite granules on osteogenesis and direct association with osteoclasts Biomaterials 30 2009 4390 4400
6. Q. Chang, D.L. Chen, H.Q. Ru, X.Y. Yue, L. Yu, and C.P. Zhang Toughening mechanisms in iron-containing hydroxyapatite/titanium composites Biomaterials 31 2010 1493 1501
7. A.E. Porter, N. Patel, J.N. Skepper, S.M. Best, and W. Bonfield Comparison of in vivo dissolution processes in hydroxyapatite and silicon-substituted hydroxyapatite bioceramics Biomaterials 24 2003 4609 4620
8. E. Chevalier, D. Chulia, C. Pouget, and M. Viana Fabrication of porous substrates: a review of processes using pore forming agents in the biomaterial field Journal of Pharmaceutical Sciences 97 2007 1135 1153
9. B. Baroli From Natural bone grafts to Tissue engineering therapeutics: brainstorming on pharmaceutical formulative requirements and challenges Journal of Pharmaceutical Sciences 98 2009 1174 1317
10. M.P. Ginebra, M. Espanol, E.B. Montufar, R.A. Perez, and G. Mestres New processing approaches in calcium phosphate cements and their applications in regenerative medicine Acta Biomaterialia 6 2010 2863 2873
11. P.S. Eggli, W. Muller, and R.K. Schenk Porous hydroxyapatite and tricalcium phosphate cylinders with two different pore size ranges implanted in the cancellous bone of rabbits Clinical Orthopaedics and Related Research 232 1988 127 138
12. A.I. Itala, H.O. Ylanen, C. Ekholm, K.H. Karlsson, and H.T. Aro Pore diameter of more than 100 μm is not requisite for bone ingrowth in rabbits Journal of Biomedical Materials Research 58 2001 679 683
13. K. Shimazaki, and V. Mooney Comparative study of porous hydroxyapatite and tricalcium phosphate as bone substitute Journal of Orthopaedic Research 3 1985 301 310
14. R.E. Holmes, R.W. Bucholz, and V. Mooney Porous hydroxyapatite as a bone graft substitute in diaphyseal defects: a histometric study Journal of Orthopaedic Research. 5 1987 114 121
15. G. Daculsi, and N. Passuti Effect of the porosity for osseous substitution of calcium phosphate ceramics Biomaterials 11 1990 86 87
16. B.S. Chang, C.K. Lee, K.S. Hong, H.J. Youn, H.S. Ryu, S.S. Chung, and K.W. Park Osteoconduction at porous hydroxyapatite with various pore configurations Biomaterials 21 2000 1291 1298
17. B. Flautre, M. Descamps, C. Delecourt, M.C. Blary, and P. Hardouin Porous HA ceramic for bone replacement: role of the pores and interconnections - experimental study in the rabbit Journal of Materials Science: Materials in Medicine 12 2001 679 682
18. J. Bobyn, R. Pilliar, H. Cameron, and G. Weatherly The optimal pore size for the fixation of porous surfaced metal implants by the ingrowth of bone Clinical Orthopaedics and Related Research 150 1980 263 270
19. J.E. Gough, J.R. Jones, and L.L. Hench Nodule formation and mineralisation of human primary osteoblasts cultured on a porous bioactive glass scaffold Biomaterials 25 2004 2039 2046
20. E.B. Montufar, T. Traykova, C. Gil, I. Harr, A. Almirall, A. Aguirre, E. Engel, J.A. Planell, and M.P. Ginebra Foamed surfactant solution as a template for self-setting injectable hydroxyapatite scaffolds for bone regeneration Acta Biomaterialia 6 2010 876 885
21. L.A. Cyster, D.M. Grant, S.M. Howdle, F.R.A.J. Rose, D.J. Irvine, D. Freeman, C.A. Scotchford, and K.M. Shakesheff The influence of dispersant concentration on the pore morphology of hydroxyapatite ceramics for bone tissue engineering Biomaterials 26 2005 697 702
22. P. Sepulveda, J.G.P. Binner, S.O. Rogero, O.Z. Higa, and J.C. Bressiani Production of porous hydroxyapatite by the gel-casting of foams and cytotoxic evaluation Journal of Biomedical Materials Research 50 2000 27 34
23. D. Tadic, F. Beckmann, K. Schwarz, and M. Epple A novel method to produce hydroxyapatite objects with interconnecting porosity that avoids sintering Biomaterials 25 2004 3335 3340
24. L. Ji, G Jell, Y. Dong, J.R. Jones, and M.M. Stevens Template synthesis of ordered macroporous hydroxyapatite bioceramics Chemical Communications 47 2011 9048 9050
25. B.H. Fellah, and P. Layrolle Sol-gel synthesis and characterization of macroporous calcium phosphate bioceramics containing microporosity Acta Biomaterialia 5 2009 735 742
26. M. Descamps, O. Richart, P. Hardouin, J.C. Hornez, and A. Leriche Synthesis of macroporous β-tricalcium phosphate with controlled porous architectural Ceramics International 34 2008 1131 1137
27. G. Tripathi, and B. Basu A porous hydroxyapatite scaffold for bone tissue engineering: Physico-mechanical and biological evaluations Ceramics International 38 2012 341 349
28. J. Zhao, X. Lu, K. Duan, L.Y. Guo, S.B. Zhou, and J. Weng Improving mechanical and biological properties of macroporous HA scaffolds through composite coatings Colloids Surface B 74 2009 159 166
29. S. Roohani-Esfahani, S. Nouri-Khorasani, Z. Lu, R. Appleyard, and H. Zreiqat The influence hydroxyapatite nanoparticle shape and size on the properties of biphasic calcium phosphate scaffolds coated with hydroxyapatite-PCL composites Biomaterials 31 2010 5498 5509
30. B. Li, X.N. Chen, B. Guo, X.L. Wang, H.S. Fan, and X.D. Zhang Fabrication and cellular biocompatibility of porous carbonated biphasic calcium phosphate ceramics with a nanostructure Acta Biomaterialia 5 2009 134 143
31. A. Almirall, G. Larrecq, J.A. Delgado, S. Martínez, J.A. Planell, and M.P. Ginebra Fabrication of low temperature macroporous hydroxyapatite scaffolds by foaming and hydrolysis of an a-TCP paste Biomaterials 25 2004 3671 3680
32. W. Wang, Q. Chang, B.S. Chu, C.Q. Lin, S. Chen, H.Q. Ru, One kind of fabrication method for macroporous hydroxyapatite, CN Patent no. 201110148091.X (2013).
33. V.I. Lozinsky Cryotropic gelation of poly(vinyl alcohol) solutions Russian Chemical Review 67 1998 573 586
34. Q. Fu, M.N. Rahaman, F. Dogan, and B.S. Bal Freeze-cast hydroxyapatite scaffolds for bone tissue engineering applications Biomedical Materials 3 2008 89 109
35. S. Deville, E. Saiz, and A.P. Tomsia Freeze casting of hydroxyapatite scaffolds for bone tissue engineering Biomaterials 27 2006 5480 5489
36. Q. Fu, M.N. Rahaman, F. Dogan, and B.S. Bal Freeze casting of porous hydroxyapatite scaffolds. I. processing and general microstructure Journal of Biomedical Materials Research Part B Applied Biomaterials 86 2008 125 135
37. Q. Fu, M.N. Rahaman, F. Dogan, and B.S. Bal Freeze casting of porous hydroxyapatite scaffolds. II. sintering, microstructure, and mechanical behavior Journal of Biomedical Materials Research Part B Applied Biomaterials 86 2008 514 522
38. A. Sinha, S. Nayar, A. Kar, M.K. Gunjan, B. Mahato, and G. Das Microhydrogel-mediated synthesis of sintered hydroxyapatite granules International Journal of Applied Ceramic Technology 5 2008 458 463
39. K.H. Zuo, Y.P. Zeng, and D.L. Jiang Effect of polyvinyl alcohol additive on the pore structure and morphology of the freeze-cast hydroxyapatite ceramics Materials Science and Engineering: C 30 2010 283 287
40. A. Sinha, and A. Guha Biomimetic patterning of polymer hydrogels with hydroxyapatite nanoparticles Materials Science and Engineering: C 29 2009 1330 1333
41. J.C. Le Huec, T. Schaeverbeke, D. Clement, J. Faber, and A. Le Rebeller Influence of porosity on the mechanical resistance of hydroxyapatite ceramics under compressive stress Biomaterials 16 1995 113 118
42. D.M. Liu Influence of porosity and pore size on the compressive strength of porous hydroxyapatite ceramic Ceramics International 23 1997 135 139
43. F.G. Evans, and A. King Regional differences in some physical properties of human spongy bone. In: biomechanical Studies of the Musculo-Skeletal System Springfield: Thomas 1961 19 67
44. A Odgaard, and F. Linde The underestimation of Young's modulus in compressive testing of cancellous bone specimen Journal of Biomechanics 8 1991 691 698
45. Implants for surgery-hydroxyapatite. Part1. Ceramic hydroxyapatite BS, ISO 13779-1:2000.