Abstract
In order to produce analytical data β subsequently to be officially standardized and legally regulated βand ensure good laboratory repeatability and compliance with the requirements of the relevant regulations, machines are required that are capable of simulating the behaviour of a specified prostesis and providing indicative results to predict its behaviour when implanted.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
Preview
Unable to display preview. Download preview PDF.
Bibliography
Bousquet, G. and Grammont, P. (1972) Etude experimentale de la longevitΓ© des protheses de hanche du point de vue mecanique, Acta Orthop. Belgica, 38, Suppl. I, 123.
Boutin, P (1972) Arthroplastic totale de la hanche par prothese en alumine fritee, Revue dβorthopedie, 58, 229.
Cannas, M., Amadeo, M. R., Krajewski, A. and Ravaglioli, A. (1987) Biocompatibility of different bioactive glasses for coating metallic prostheses in relation to cells adhesion mechanisms, Biomaterials and Clinical Applications (eds A. Pizzoferrato, P. G. Marchetti, A. Ravaglioli, and A. J. C. Lee), Advances in Biomaterials, Vol. 7, Elsevier Science Publishers BV, Amsterdam, 563β7.
Contoli, S., Krajewski, A. and Ravaglioli, A. (1983) Histocompatibility and Biophysicochemistry of Doped Bioglass in Ceramic in Surgery, 2nd Biosymposium (ed. P. Vincenzini) Elsevier Science Publishers BV, Amsterdam, p. 187.
Dowson, D. and Hoffman-Daimler, S. (1973) Zur Entwicklung neuer HΓΌftgelenksprothesen, Medizinisch-OrthopΓ€dische Technik, 93, 31.
Duff-Barclay, I. and Spillman, D. T. (1966/67) Lubrication and wear in living and artificial human joints, Proc. I. Mech. E., 181, 3 J.
Hench, L. L., Paschall, H. A., Allen, W. C. and Pietrowski, G. (1972) An investigation of bonding mechanisms at the interface of a prosthetic material, U. S. Army Med. E. & D. Cont. No. DADA 17-70-C0001, Mep. N.3.
Krajewski, A., Ravaglioli, A., de Portu, G., and Visani, R. (1985) Physicochemical approach to improving adherence between steel and bioactive glass, Bull. Am. Ceram. Soc., 6, 679.
Krajewski, A., Ravaglioli, A., Valmori, R., et al. (1986) A comparative study of a vitreous biological composition suitable for coating steel prostheses, J. Mat. Sc., 21, 1625.
Mathys Sen., R. and Mathys Jr, R. (1974) Die GrensflΓ€chen Metall-Metall, Metall-Kunststoff, Kunststoff-Kunststoff in Biopolymere und Biomechanik von Bindegewebssystemen, Springer-Verlag, Berlin, Heidelberg, New York.
Miller, D. A. (1971) Reducing Wear in Total Hip Prosthesis, Univ. of Cincinnati, College of Engineering.
Moroni, A., Mongiorgi, R., Marcacci, M., Krajewski, A., Ravaglioli, A., and Gundi, S. (1988) Bioglaze coating of metallic femoral prosthetic stems: Fatigue test in Implant Materials In Biofunction (ed. C. De Putter et al.) reproduced from Advances in Biomaterials, 8, Elsevier Science Publishers BV, Amsterdam.
Nowaira, N. H., Morris, F. and Rakowoki, S. (1978) Proc. 71st BES Sc. Meeting & 3rd Conf. on Mat. for Med. and Biology, Keele University, UK.
Paul, J. P. (1966/67) Forces transmitted by joints in the human body, Proc. I. Mech. E., 181, 35.
Pauwels, F. (1935) Der Schenkelhalsbruch, Enke-Verlag, Stuttgart.
Ravaglioli, A., Krajewski, A., Ponti, P., Valmori, R., Messori, M., and Moroni, A. (1987) Physico-chemical behaviour in of a bioactive glass coating for metal prostheses, in High Technology Ceramics (ed. P. Vincenzini), Elsevier Science Publishers, Amsterdam, 91β8.
Rydell, N. (1965) Forces in the hip joint in Biomechanics and Related Bioengineering Topics (ed. R-M. Kenedi) Pergamon Press, Oxford.
Scales, J. T. and Lowe, S. A. (1971) Some factors influencing bone and joint replacements in Total Hip Replacement (ed. M. Jayson). Sector, London.
Shaw, R. J. A. and Murray, D. G. (1973) Knee joint simulator, Clinical Orthopaedics and Related Research, 94, 15.
Shikita, T. and Oonishi, H. (1973) Abnutzung und Schmierung der Totalendoprothesesn des HΓΌftgelenks in Der Totale HΓΌftgelenkersatz, Thieme, Stuttgart.
Swanson, S. A. V., Freeman, M. A. R. and Hearth, J. C. (1973) Laboratory tests on total joint replacement prostheses, J. Bone and Joint Surgery, 55B, 759.
Thomas, G. and Uhr, H. E. (1969) Experimentelle Untersuchungen zur LeistungsfΓ€higkeit der totalen HΓΌftgelenksprothese, Zeitschrift fΓΌr OrthopΓ€die, 106, 694.
Thull, R. (1975) Investigation of artificial knee joints in Testing and Biomechanical Aspects, Proc. 5th Int. Congr. of Biomechanics, IyvΓ€skylΓ€, Finland.
Thull, R. and Schaldach, M. (1969) Experimentelle Untersuchungen zur LeistungsfΓ€higkeit der Totalen HΓΌftgelenksprothese, Z. Orthop., 106, 694.
UngethΓΌm, M. (1976) Requirements of operational tests and test results in total hip and knee arthroplastic in Advances in Artificial Hip and Knee Joint Technology (ed. M. Schaldach and D. Hohmann), Springer-Verlag, Berlin, pp. 493β518.
Walker, P. S. and Gold, B. L. (1973) Comparison of the bearing performance of normal and artificial human joints, J. Lubr. Techn., 95, 333.
Weightman, B.O., Paul, I.L., Rose, R.M., et al. (1973) A comparative study of total hip replacement prostheses, J. Biomechanics, 6, 299.
Author information
Authors and Affiliations
Rights and permissions
Copyright information
Β© 1992 Springer Science+Business Media Dordrecht
About this chapter
Cite this chapter
Ravaglioli, A., Krajewski, A. (1992). Current mechanical-testing devices as simulators of properties under dynamic movement. In: Bioceramics. Springer, Dordrecht. https://doi.org/10.1007/978-94-011-2336-5_10
Download citation
DOI: https://doi.org/10.1007/978-94-011-2336-5_10
Publisher Name: Springer, Dordrecht
Print ISBN: 978-94-010-5032-6
Online ISBN: 978-94-011-2336-5
eBook Packages: Springer Book Archive