Abstract
Bone on-growth and peri-implant migration of polyethylene particles were studied in an experimental setting using trabecular metal and solid metal implants. Cylindrical implants of trabecular tantalum metal and solid titanium alloy implants with a glass bead blasted surface were inserted either in an exact surgical fit or with a peri-implant gap into a canine knee joint. We used a randomised paired design. Polyethylene particles were injected into the knee joint. In both types of surgical fit we found that the trabecular metal implants had superior bone ongrowth in comparison with solid metal implants (exact fit: 23% vs. 7% [p=0.02], peri-implant gap: 13% vs. 0% [p=0.02]. The number of peri-implant polyethylene particles was significantly reduced around the trabecular metal implants with a peri-implant gap compared with solid implants.
Résumé
Dans un cadre expérimental, nous avons étudié la réhabitation osseuse et la migration péri-implant de particules de polyéthylène en utilisant des implants en métal trabéculaire et des implants en métal massif. Des implants cylindriques de tantale trabéculaire et des implants en alliage de titane massif avec traitement de surface ont été inséré avec une adaptation exacte ou avec un espace péri-implant dans des genoux de chiens. Nous avons utilisé une forme randomisée par paire. Des particules de polyéthylène ont été injectées dans le genou. Dans les deux types d'implantation nous avons trouvé que les implants en métal trabéculaire avaient une réhabitation osseuse supérieure en comparaison des implants en métal massif. Le nombre de particules de polyéthylène était notablement réduit autour de l'implant en métal trabéculaire avec un intervalle péri-implant comparé aux implants en métal massif.
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References
Anthony PP, Gie GA, Howie CR, Ling RS (1990) Localised endosteal bone lysis in relation to the femoral components of cemented total hip arthroplasties. J Bone Jt Surg Br 72:971–979
Aspenberg P, Herbertsson P (1996) Periprosthetic bone resorption. Particles versus movement. J Bone Jt Surg Br 78:641–646
Baddeley AJ, Gundersen HJ, Cruz-Orive LM (1986) Estimation of surface area from vertical sections. J Microsc 142:259–276
Bechtold JE, Kubic V, Soballe K (2001) A controlled experimental model of revision implants. I. Development. Acta Orthop Scand 72:642–649
Bobyn JD, Jacobs JJ, Tanzer M, Urban RM, Aribindi R, Sumner DR, Turner TM, Brooks CE (1995) The susceptibility of smooth implant surfaces to periimplant fibrosis and migration of polyethylene wear debris. Clin Orthop Relat Res 311:21–39
Bobyn JD, Stackpool GJ, Hacking SA, Tanzer M, Krygier JJ (1999) Characteristics of bone ingrowth and interface mechanics of a new porous tantalum biomaterial. J Bone Jt Surg Br 81:907–914
Bobyn JD, Toh KK, Hacking SA, Tanzer M, Krygier JJ (1999) Tissue response to porous tantalum acetabular cups: a canine model. J Arthroplasty 14:347–354
Emerson RHJ, Sanders SB, Head WC, Higgins L (1999) Effect of circumferential plasma-spray porous coating on the rate of femoral osteolysis after total hip arthroplasty. J Bone Joint Surg Am 81:1291–1298
Goodman S, Aspenberg P, Song Y, Regula D, Lidgren L (1996) Different effects of phagocytosable particles during bone formation versus remodeling. J Biomed Mater Res 33:153–158
Gotfredsen K, Budtz-Jorgensen E, Jensen LN (1989) A method for preparing and staining histological sections containing titanium implants for light microscopy. Stain Technol 64:121–127
Green TR, Fisher J, Stone M, Wroblewski BM, Ingham E (1998) Polyethylene particles of a ‘critical size’ are necessary for the induction of cytokines by macrophages in vitro. Biomaterials 19:2297–2302
Gundersen HJ, Bendtsen TF, Korbo L, Marcussen N, Moller A, Nielsen K, Nyengaard JR, Pakkenberg B, Sorensen FB, Vesterby A et al (1988) Some new, simple and efficient stereological methods and their use in pathological research and diagnosis. Acta Pathol Microbiol Immunol Scand 96:379–394
Johansson CB, Han CH, Wennerberg A, Albrektsson T (1998) A quantitative comparison of machined commercially pure titanium and titanium-aluminum-vanadium implants in rabbit bone. Int J Oral Maxillofac Implants 13:315–321
Kim YS, Brown TD, Pedersen DR, Callaghan JJ (1995) Reamed surface topography and component seating in press-fit cementless acetabular fixation. J Arthroplasty 10:S14–S21
Lu JX, Flautre B, Anselme K, Hardouin P, Gallur A, Descamps M, Thierry B (1999) Role of interconnections in porous bioceramics on bone recolonization in vitro and in vivo. J Mater Sci Mater Med 10:111–120
Martin JY, Schwartz Z, Hummert TW, Schraub DM, Simpson J, Lankford J Jr, Dean DD, Cochran DL, Boyan BD (1995) Effect of titanium surface roughness on proliferation, differentiation, and protein synthesis of human osteoblast-like cells (MG63). J Biomed Mater Res 29:389–401
Matsuno H, Yokoyama A, Watari F, Uo M, Kawasaki T (2001) Biocompatibility and osteogenesis of refractory metal implants, titanium, hafnium, niobium, tantalum and rhenium. Biomaterials 22:1253–1262
Overgaard S, Lind M, Josephsen K, Maunsbach A, Bünger C, Søballe K (1998) Resorption of hydroxyapatite and fluorapatite ceramic coatings on weightbearing implants: a quantitative and morphological study in dogs. J Biomed Mater Res 39:141–152
Overgaard S, Soballe K, Gundersen G (2000) Efficiency of systematic sampling in histomorphometric bone research illustrated by hydroxyapatite-coated implants: optimizing the stereological vertical-section design. J Orthop Res 18:313–321
Paul HA, Bargar WL, Mittlestadt B, Musits B, Taylor RH, Kazanzides P, Zuhars J, Williamson B, Hanson W (1992) Development of a surgical robot for cementless total hip arthroplasty. Clin Orthop Relat Res 285:57–66
Rahbek O, Kold S, Zippor B, Overgaard S, Soballe K (2005) The influence of surface porosity on gap-healing around intra-articular implants in the presence of migrating particles. Biomaterials 26:4728–4736
Rahbek O, Overgaard S, Jensen TB, Bendix K, Soballe K (2000) Sealing effect of hydroxyapatite coating: a 12-month study in canines. Acta Orthop Scand 71:563–573
Rahbek O, Overgaard S, Lind M, Bendix K, Bunger C, Soballe K (2001) Sealing effect of hydroxyapatite coating on peri-implant migration of particles. An experimental study in dogs. J Bone Jt Surg Br 83:441–447
Robertsson O, Wingstrand H, Kesteris U, Jonsson K, Onnerfalt R (1997) Intracapsular pressure and loosening of hip prostheses. Preoperative measurements in 18 hips. Acta Orthop Scand 68:231–234
Schmalzried TP, Jasty M, Harris WH (1992) Periprosthetic bone loss in total hip arthroplasty. Polyethylene wear debris and the concept of the effective joint space. J Bone Joint Surg Am 74:849–863
Søballe K, Hansen ES, Rasmussen HB, Jorgensen PH, Bünger C (1992) Tissue ingrowth into titanium and hydroxyapatite-coated implants during stable and unstable mechanical conditions. J Orthop Res 10:285–299
Szponar B, Larsson L (2001) Use of mass spectrometry for characterising microbial communities in bioaerosols. Ann Agric Environ Med 8:111–117
Thompson GJ, Puleo DA (1996) Ti-6Al-4V ion solution inhibition of osteogenic cell phenotype as a function of differentiation timecourse in vitro. Biomaterials 17:1949–1954
Van der Vis H, Aspenberg P, de Kleine R, Tigchelaar W, Van Noorden CJ (1998) Short periods of oscillating fluid pressure directed at a titanium-bone interface in rabbits lead to bone lysis. Acta Orthop Scand 69:5–10
Van der Vis H, Aspenberg P, Marti RK, Tigchelaar W, Van-Noorden CJ (1998) Fluid pressure causes bone resorption in a rabbit model of prosthetic loosening. Clin Orthop Relat Res 201–208
Acknowledgements
The authors wish to thank Annette Milton and Jane Pauli for their technical expertise in preparing the histological sections. Zimmer Inc., Warsaw, IN, USA produced the implants free of charge. Smith and Nephew-Richards provided the polyethylene particles. Niels Osterby Olesen, Associate Professor, MSc, Earth Sciences, University of Aarhus, performed the SEM. Dr. Lennart Larsson, PhD, Department of Medical Microbiology, Dermatology and Infection, Lund University, Sweden, performed the analysis of PE particles for endotoxins. The Danish Medical Research Council, The Danish Rheumatism Association and Institute of Experimental Clinical Research, University of Aarhus, Denmark, financially supported the study.
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Rahbek, O., Kold, S., Zippor, B. et al. Particle migration and gap healing around trabecular metal implants. International Orthopaedics (SICO 29, 368–374 (2005). https://doi.org/10.1007/s00264-005-0008-4
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DOI: https://doi.org/10.1007/s00264-005-0008-4