Zusammenfassung
Wie in den vorhergehenden Kapiteln beschrieben wird Biokeramik seit den 70er Jahren erfolgreich in der Orthopädie eingesetzt [1–3]. Die bioinerten Keramiken Aluminiumoxid und Zirkonoxid, die sich für lasttragende bzw. tribologische Anwendungen bewährt haben, bieten kaum ein Potential für gute Osseointegration wie die bioaktiven Calciumphosphat – Keramiken mit Hydroxylapatit (HA) und Tricalciumphosphat (TCP) als den wichtigsten Vertretern. HA und TCP sind wegen ihrer mässigen Festigkeit für lastaufnehmende Anwendungen ungeeignet.
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Literatur
Clarke I.C., Willmann G., Structural Ceramics in Orthopedics, in Bone Implant Interface, Cameron H.U. (ed.), Mosby, Baltimore, Boston, Chicago, London, 1994, p. 203–252.
Heros R., Willmann G., Ceramics in Total Hip Arthroplasty: History, Mechanical Properties, Clinical results and Current Manufacturing State of the Art, Seminars of Arthroplasty, 9, 1998, p. 114–122.
Heimke G., Willmann G., Follow-up-Study-Based Wear Debris Reduction with Ceramic-metal-modular Hip Replacenment, in Biomaterials Engineering and Devices: Human Applications, 2, Wise D.L. (ed.), Humana Press Inc., Totowa, NJ, USA, 2000, p. 223–251.
Willmann G., Production of medical grade alumina, Brit. Ceram. Trans., 94, 1995, p. 38–41.
Nagel A., Jaschinski W., Richter H.G., Willmann G., Reinraum Masseaufbereitung für Biokeramik, Keram. Z., 46, 1994, p. 618–623.
Willmann G., Richter H.G., Pfaff H.G., Steigerung der Sicherheit von keramischen Kugelköpfen für Hüftendoprothese, Biomed. Technik, 40, 1995, p. 342–346.
Richter H.G., Willmann G., Reliability of Ceramic Components for Total Hip Prostheses, Brit. Ceram. Trans., 98, 1999, p. 29–34.
Epinette J.A., Geesink R.G.T., Hydroxyapatite Coated Hip and Knee Arthroplasty, Expansion Sientifique Francaise, Paris, 1995.
Willmann G., Keramische Pfannen für Hüftendoprothesen, Teil 4: Never mix and match, Biomed. Technik, 43, 1998, p. 184–186.
Piconi C., Maccauro G., Zirconia as a biomaterial, Biomaterials, 20, 1999, p. 1–25.
Willmann G., The Colour of Alumium Oxide Ceramic Implants, in Bioceramic and the Human Body, Ravaglioli A., Krajewski A. (eds.), Elsevier Appl. Sci., London, New York, 1992, p. 250–255.
Dietrich A., Heimann R.B., Willmann G., The Colour of Medical Grade Zirconia, J. Material Sci., Materials in Medicine, 7, 1996, p. 559–565.
Weber B.G., Fiechter T.H., Polyäthylen Verschleiß und Spätlockerung der Totalprothese des Hüftgelenkes, Orthopädie, 18, 1989, p. 370–376.
Sauer W.L., Anthony M.E., Predicting the Clinical Wear Performance of Orthopaedic Bearing Surfaces, in Alternative Bearing Surfaces in Total Joint Replacement, STP 1346, Jacobs J.J., Craig T.L. (eds.), ASTM, 1998, p. 1–29.
Sedel L., Cabanela M.E., Hip Surgery – Materials and Developments, Martin Dunitz, London, 1998.
Sedel L., Willmann G., Reliability and Long-term Results of Ceramics in Orthopaedics, Georg Thieme Verlag, Stuttgart, New York, 1999.
Boutin P.M., Arthroplastic totale de hanche par prothese en alumine fritte, Rev. Chi. Orthop., 58, 1972, p. 229–246.
Mittelmeier H., Heisel J., 10 Jahre Erfahrungen mit Keramik - Hüftendoprothesen, Medizische Literarische Verlagsges. GmbH, Uelzen, 1986.
Salzer M., Zweymüller K., Locke H., Plenk jr. H., Punzet G., Erste Erfahrungen mit einer Hüfttotalendoprothese aus Biokeramik, Med. Orthop. Technik, 95, 1975, p. 162–164.
Zichner L., Lindenfeld T.H., In vivo Verschleiß der Gleitpaarungen Keramik Polyethylen gegen Metall Polyethylen, Orthopäde, 26, 1997, p. 129–134.
Bos I., Meeuwssen E., Henssge E.J., Löhrs U., Unterschiede des Polyäthylenabriebs bei Hüftgelenkendoprothesen mit Keramik und Metall Polyäthylenpaarung der Gleitflächen, 129, 1991, p. 507–515.
Henssge E.J., Bos I., Willmann G., Al2O3 against Al2O3 combination in hip endoprotheses, Histologic investigations with semiquantitave grading of revision and autopsy cases and abrasion measures, J. Materials Science Materials in Medicine, 5, 1994, p. 657–661.
Saikko V., Pfaff H.G., Low wear and Friction in Alumina / alumina Total Hip Joints – A Hip Simulator Study, Acta Orthop. Scand., 69, 1998, p. 443–448.
Harms J., Mäusle E., Tissue Reaction to Ceramic Implant Material, J. Biomedical Materials Research, 13, 1979, p. 67–87.
Griss P., Heimke G., Biocompatibilty of High Density Alumina and its Applications in Orthopedic Surgery, in Biocompatibility of Clinical Implant Materials, 1, Williams D.F. (ed.), CRC Press Inc., Boca Raton, Florida, 1981, p. 155–198.
Willmann G., Kälberer H., Pfaff H.G., Keramische Pfanneneinsätze für Hüftendoprothesen, Biomed. Technik, 41, 1998, p. 98–105.
Früh H.J., Willmann G., Pfaff H.G., Wear Characteristic of Ceramic on ceramic for Hip Endoprotheses, Biomaterials, 18, 1997, p. 873–876.
Früh H.J., Ascherl R., Kaddick C., Siebels W., Blümel G., A Retrieval Study of Al2O3 Heads Running against UHMWPE and CFRP Cups, Bioceramics, 7, 1994, p. 371–376.
Früh H.J., Willmann G., Tribological Investigations of the Wear Couple Alumina and CFRP for Total Hip Replocement, Biomaterials, 19, 1998, p. 1145–1150.
Rieker C., Windler M., Wyss U., Metasul: A Metal-on-Metal Bearing, Hans Huber, Bern, Göttingen, 1999.
Garino J., The Status and Early Results of Modern Ceramic-ceramic Total Hip Replacement in the United States, in Bioceramics in Hip Joint Replacement, Willmann G., Zweymüller K. (eds.), Georg Thieme Verlag, Stuttgart, New York, 2000, p. 81–87.
Affatato S., Testoni M., Cacciari G.L., Toni A., Mixed oxides prosthetic ceramic ball heads, Biomaterials, 20, 1999, p. 971–975; 1925–1929.
Burger W., Umwandlungs und plateletverstärkte Aluminiumoxidmatrixwerkstoffe, Keram. Z., 50, 1998, p. 18–22.
Rack R., Pfaff H.G., A New Ceramic Material for Orthopaedics, in Bioceramics in Hip Joint Replacement, Willmann G., Zweymüller K. (eds.), Georg Thieme Verlag, Stuttgart, New York, 2000, p. 141–145.
Kaddick C., Pfaff H.G., Wear Study in the Alumina-zirconia system, in Bioceramics in Hip Joint Replacement, Willmann G., Zweymüller K. (eds.), Georg Thieme Verlag, Stuttgart, New York, 2000, p. 146–150.
Kaddick C., Pfaff H.G., Wear study on the alumina-zirconia system, Sedel L., Willmann G. (eds.), Georg Thieme Verlag, Stuttgart, New York, 1999, p. 96–101.
Willmann G., von Chamier W., Pfaff H.G., Rack R., Biocompatibility of a New Alumina Matrix Biocomposite AMC, Bioceramics, 13, 2000.
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Willmann, G. (2009). Biokeramik für Anwendungen in der Orthopädie. In: Wintermantel, E., Ha, SW. (eds) Medizintechnik. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-540-93936-8_71
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