Formation of porous structure of the metallic materials used on bone implants

Solid State Phenomena

Volumn 183, Issue , 2012, Pages 155-162

  Seramak, Tomasz ^a   Serbiński, Waldemar ^a   Zieliński, Andrzej ^a  

^a GDANSK UNIVERSITY OF TECHNOLOGY   (Poland)

Author keywords

Biocompatibility; Biomaterial; Implants; Porous material; Titanium alloy

Indexed keywords

ALLOYS; BIOCOMPATIBILITY; BIOLOGICAL MATERIALS; BIOMATERIALS; BONE; CORROSION RESISTANCE; DEGRADATION; DENTAL PROSTHESES; ELASTIC MODULI; ELASTICITY; FABRICATION; IMPLANTS (SURGICAL); MORPHOLOGY; POROUS MATERIALS; POWDER METALLURGY; POWDER METALS; RESEARCH; SINTERING; TITANIUM; WEAR RESISTANCE; ALUMINUM ALLOYS; ENVIRONMENTAL TECHNOLOGY; MANUFACTURE; METAL IMPLANTS; METALS; NIOBIUM ALLOYS; PORE SIZE; TERNARY ALLOYS; VANADIUM ALLOYS; ZIRCALOY;

BONE IMPLANT; BONE INGROWTH; BONE-IMPLANT FIXATION; FABRICATION METHOD; HUMAN BONES; IMPLANT MATERIALS; MANUFACTURING METHODS; MATERIALS FABRICATION; METALLIC MATERIAL; OPEN-CELL; POROUS STRUCTURES; POROUS TITANIUM ALLOYS; POWDER COMPACTIONS; SINTERING PROCESS; SOLID METALS; SPHERICAL POWDERS; STRESS SHIELDING; TI ALLOYS; TI-6AL-4V; WEAR AND CORROSION RESISTANCE; YOUNG'S MODULUS; FINAL MICROSTRUCTURES;

TITANIUM ALLOYS;

EID: 84855680975     PISSN: 10120394     EISSN: None     Source Type: Book Series    
DOI: 10.4028/www.scientific.net/SSP.183.155     Document Type: Conference Paper

References (39)

1. D.M. Robertson, L. Pierre, R. Chahal: Preliminary observations of bone ingrowth into porous materials. J. Biomed. Mater. Res. 10 (1976) 335-344.
2. H.U. Cameron, I. Macnab, R.M. Pilliar: A porous metal system for joint replacement surgery. Int. J. Artif. Organs 1 (1978) 104-109. (Pubitemid 9246829)
3. W.C. Head, D.J. Bauk, R.H. Emerson: Titanium as the material of choice for cementless femoral components in total hip arthroplasty. Clin. Orthop. (1995) 85-90.
4. G. Ryan, A. Pandit, D.P. Apatsidis: Fabrication methods of porous metals for use in orthopaedic applications. Biomaterials 27 (2006) 2651-2670. (Pubitemid 43122070)
5. J.D. Bobyn, A.H. Glassman, H. Goto, J.J. Krygier, J.E. Miller, C.E. Brooks: The effect of stem stiffness on femoral bone resorption after canine porous-coated total hip arthroplasty. Clin. Orthop. Relat. Res. (1990) 196-213.
6. J.D. Bobyn, E.S. Mortimer, A.H. Glassman, C.A. Engh, J.E. Miller, C.E. Brooks: Producing and avoiding stress shielding. Laboratory and clinical observations of noncemented total hip arthroplasty. Clin. Orthop. (1992) 79-96.
7. R.M. Pilliar, H.U. Cameron, A.G. Binnington, J. Szivek, I. Macnab: Bone ingrowth and stress shielding with a porous surface coated fracture fixation plate. J. Biomed. Mater. Res. 13 (1979) 799-810. (Pubitemid 9479360)
8. C.A. Engh, J.D. Bobyn: Principles, techniques, results, and complications with a porous-coated sintered metal system. Instr. Course Lect. 35 (1986) 169-183.
9. C.J. Sychterz, L.D. Topoleski, M. Sacco, C.A. Engh: Effect of femoral stiffness on bone remodeling after uncemented arthroplasty. Clin. Orthop. Relat. Res. (2001) 218-227. (Pubitemid 32729660)
10. T. Otani, L.A. Whiteside: Failure of cementless fixation of the femoral component in total hip arthroplasty. Orthop. Clin. North Am. 23 (1992) 335-346.
11. F. Simancik: Introduction: the strange world of cellular metals. In: Degischer H.P., Kriszt B., editors. Handbook of cellular metals. Weinheim, Wiley-VCH Verlag (2002), 1-4.
12. J.N. Weber, E.W. White: Carbon-metal graded composites for permanent osseous attachment of non-porous metals. Mater. Res. Bull. 7(9) (1972) 1005-1016.
13. P.I. Branemark: Osseointegration and its experimental background. J. Prosthet. Dent. 50 (1983) 399-410.
14. J.J. Klawitter, A.M. Weinstein: The status of porous materials to obtain direct skeletal attachment by tissue ingrowth. Acta Orthop. Belg. 40 (1974) 755-765.
15. E.W. White, J.N. Weber, D.M. Roy, E.L. Owen, R.T. Chiroff, R.A. White: Replamineform porous biomaterials for hard tissue implant applications. J. Biomed. Mater. Res. 9 (1975) 23-27.
16. M. Spector, M.J. Michno, W.H. Smarook, G.T. Kwiatkowski: A highmodulus polymer for porous orthopedic implants: biomechanical compatibility of porous implants. J. Biomed. Mater. Res. 12 (1978) 665-677. (Pubitemid 9022032)
17. J.J. Klawitter, J.G. Bagwell, A.M. Weinstein, B.W. Sauer: An evaluation of bone growth into porous high density polyethylene. J. Biomed. Mater. Res. 10 (1976) 311-323.
18. H.J. Cestero, K.E. Salyer, I.R. Toranto: Bone growth into porous carbon, polyethylene, and polypropylene prostheses. J. Biomed. Mater. Res. 9 (1975) 1-7.
19. C.A. Homsy, T.E. Cain, F.B. Kessler, M.S. Anderson, J.W. King: Porous implant systems for prosthesis stabilization. Clin. Orthop. 89 (1972) 220-235.
20. B.W. Sauer, A.M. Weinstein, J.J. Klawitter, S.F. Hulbert, R.B. Leonard, J.G. Bagwell: The role of porous polymeric materials in prosthesis attachment. J. Biomed. Mater. Res. 8 (1974) 145-153.
21. J. Hirschhorn, A. McBeath, M. Dustoor: Porous titanium surgical implant materials. J. Biomed. Mater. Res. Symp. 2 (1971) 49-67.
22. J. Galante, W. Rostoker, R. Lueck, R.D. Ray: Sintered fiber metal composites as a basis for attachment of implants to bone. J. Bone Joint Surg. Am. 53 (1971) 101-114.
23. H. Hahn, W. Palich: Preliminary evaluation of porous metal surfaced titanium for orthopedic implants. J. Biomed. Mater. Res. 4 (1970) 571-577.
24. M. Karagienes: Porous metals as a hard tissue substitute. I. Biomedical aspects. Biomater. Med. Dev. Artif. Organs (1973) 171-181.
25. C. Körner, R. Singer. Processing of metal foams - challenges and opportunities. Adv. Eng. Mater. 2 (2000) 159-165.
26. H. Hahn, W. Palich: Preliminary evaluation of porous metal surfaced titanium for orthopedic implants. J Biomed Mater Res 4 (1970) 571-577.
27. Oh IH, N. Nomura, N. Masahashi, S. Hanada: Mechanical properties of porous titanium compacts prepared by powder sintering. Scripta Mater. 49 (2003) 1197-1202.
28. P. Ducheyne, M. Martens: Orderly oriented wire meshes as porous coatings on orthopaedic implants. I: morphology. Clin. Mater. 1 (1986) 59-67.
29. M. Thieme, K.P. Wieters, F. Bergner, D. Scharnweber, H. Worch, J. Ndop, et al.: Titanium powder sintering for preparation of a porous functionally graded material destined for orthopaedic implants. J Mater. Sci. Mater. Med. 12 (2001) 225-231. (Pubitemid 32207077)
30. J. Banhart: Manufacture, characterisation and application of cellular metals and metal foams. Progr. Mater. Sci.; 46 (2001) 559-632. (Pubitemid 32876889)
31. J.M. Martell, R.H. Pierson, J.J. Jacobs, A.G. Rosenberg, M. Maley, J.O. Galante: Primary total hip reconstruction with a titanium fibercoated prosthesis inserted without cement. J. Bone. Joint Surg. Am. 75 (1993) 554-571. (Pubitemid 23171743)
32. J. Bobyn, S. Hacking, S. Chan, T. Toh, J. Krygier, M. Tanzer: Characterization of a new porous tantalum biomaterial for reconstructive orthopaedics. A Scientific Exhibit at the Annual AAOS, Anahein, CA (1999).
33. K. Okazaki, et al.: Physical characteristics of Ti-6A1-4V implants fabricated by electrodischarge compaction. J. Biomed. Mater. Res. 25(12) (1991) 1417-1429.
34. J. Qiu, et al.: Composite titanium dental implant fabricated by electro-discharge compaction. Biomaterials 18(2) (1997) 153-160. (Pubitemid 27033950)
35. M.I. Lifland, K. Okazaki: Properties of titanium dental implants produced by electro-discharge compaction. Clin Mater 17(4) (1994) 203-209.
36. M. Bram: High-porosity titanium, stainless steel, and superalloy parts. Adv. Eng. Mater. 2 (2000) 196-199.
37. A.E. Markaki, T.W. Clyne: Magneto-mechanical bone growth stimulation by actuation of highly porous ferromagnetic fibre arrays. SPIE international Symposium of Smart Materials, and micro-smart systems, Biomedical applications of micro and nanoengineering II. Australia, Sydney (2004).
38. J.P. Li, S.H. Li, K. de Groot, P. Layrolle: Preparation and characterization of porous titanium. Key Eng. Mater. 218 (2002) 51-54. (Pubitemid 34140828)
39. B.Y. Li, L.J. Rong, Y.Y. Li, V.E. Gjunter: A recent development in producing porous NiTi shape memory alloys. Intermetallics 8 (2000) 881-884.