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2001 | nr 888 Chemia : związki fosforu w chemii, rolnictwie i medycynie | 11--25
Tytuł artykułu

Bioceramika fosforanowa

Warianty tytułu
Phosphate Bioceramics
Języki publikacji
PL
Abstrakty
Przedstawiono charakterystykę materiałów fosforanowych przydatnych do wszczepienia w organizm człowieka w charakterze tkanki zastępczej. Omówiono ceramikę fosforanową i kompozyty, składnikami których są hydroksyapatyt i polimery. Szczególnym rozwiązaniem są powłoki z ceramiki fosforanowej nanoszone metodą plazmową na implanty metaliczne przeznaczone do zastosowań pracujących pod obciążeniem. Są nimi staw biodrowy, kolanowy, czy implanty dentystyczne. W oparciu o literaturę zacytowano niektóre zastosowania. (abstrakt oryginalny)
EN
Characteristics of biomaterials containing calcium phosphates are discussed. They are: calcium hydroxyapatite ceramics and composites of HA and polymers. Most of them are used as bone substituents. Calcium phosphate plasma-sprayed coatings on metallic implants provide a combination of bioactivity and mechanical strength for the load-bearing applications (heap and knee prostheses and dental implants). Some examples of implant applications based on literature are also cited. (original abstract)
Twórcy
Bibliografia
  • Bruijn J.D., Calcium phosphate biomaterials: Bone-bonding and biodegradation properties, Leiden, 1993, 9-26.
  • Wiliams D.F., Black J., Doherty P.J., Second Consensus Conference on Definition in Biomaterials, In: Biomaterialtissue interfaces: Advances in Biomaterials v. 10, Doherty et al. (eds), Elsevier, London, (1992), 525-533.
  • Osbom J.F., Newesely H., Dynamic aspects of the implant/bone interface In: Dental Implants, Heimke G., (ed)., Verlag, Germany, (1980), 111-123.
  • Bakker D., van Blitterswijk C.A., Hesseling S.C., Daems W.Th., Grote J.J., Tissue/biomaterial interface characteristics of four elastomers. A transmission electron microscopical study, J.Biomed.Mater.Res., 24, (1990), 277-293.
  • Hench L.L., Anderson O., Bioactive Glasses, An Introduction to bioceramics, Advanced Series in Veramics - v.l, World Scientific, (1993),41-62.
  • Kokubo T., AAV Glass-Ceramic: Processing and Properties, Ibid. (1993), 75-88.
  • Hench L.L., Bioactive implants, Chemistry and Industry, 7, (1995), 457-550.
  • Hanawa T., Titanium and its oxide film: A substrate for formation of apatite, In: The Bone-Biomaterial Interface, Davies J.E.(ed), University of Toronto Press, Toronto, (1991), 49-61.
  • Ślusarczyk A., Bioceramika hydroksyapatytowa, Polski Biul.Ceram., Nr 13, (1997).
  • De Groot K., Degradable ceramics, In: Biocompatibility of Implant Materials, v. 1, Williams D.F. (ed), CRC Press, Boca Raton, Fl.USA, (1981), 199.
  • Jarcho M., Calcium phosphate ceramics as hard tissue replacement. Clin.Orthop., 157, (1981), 259-278.
  • Albee F.H., Studies in bone growth. Triple calcium phosphate as a stimulus to osteogenesis. Ann.Surg. 71, (1920), 32-36.
  • De Groot K., Ceramics of calcium phosphates; Preparation and properties; in: de Groot K.(ed): Bioceramics of calcium phosphate. Boca Raton, CRC Press, (1983), 100-114.
  • Cook W.O., Kay F.J., Thomas K.A., Jarcho M., Interface Mechanics and histology of titanium and hydroxylapatite-coated titanium for dental implant applications., Int. J. Oral Maxillofac. Implants, 2, (1987), 107-114.
  • Ducheyne P., Van Raemdonck W., Heughebaert J.C., Heughebaert M., Structural analysis of hydroxylapatite coatings on titanium. Biomaterials, 7, (1986), 97-103.
  • Ducheyne P., Healy K.E., The effect of plasma-sprayed calcium phosphate ceramic coatings on the metal ion release from porous titanium and cobalt chromium alloys. J.Biomed.Mater.Res., 22, (1988), 1137-1163.
  • Thomas K.A., Kay J.F., Cook S.D., Jarcho M., The effect of surface macrotexture and hydroxylapatite coating on the mechanical strength and histologic profiles of titanium implant materials. J.Biomed.Mater. Res. 21, (1987), 1395-1414.
  • LeGeros R.Z., Calcium phosphates in oral biology and medicine, Krager, USA, (1991).
  • Berry E.E., The structure and composition of some calcium-deficient apatites. J.Inorg.Nucl.Chem., 29, (1967), 317-327.
  • Berry E.E., The structure and composition of some calcium-deficient apatites-II. J.Inorg.Nucl.Chem., 29, (1967), 317-327.
  • Joris S.J., Amberg C.H., The nature of deficiency in nonstoichiometric hydroxy- apatites. I. Catalytic activity of calcium and strontium hydroxyapatites. J.Phys.Chem., 75, (1971), 3167-3171.
  • Daculsi G., LeGeros R.Z., Heughebaert J.C., Barbieux I., Formation of carbonate-apatite crystals after implantation of calcium phosphate ceramics, Calcif.Tiss.Int., 46, (1990), 20-27.
  • LeGeros R.Z., Daculsi G., Orly I., Gregoire M., Heughebaert M., Gineste M., Kijkowska R., Formation of carbonate apatite on calcium phosphate materials; Dissolution/precipitation processes, In: Bone-bonding biomaterials, Ducheyne P. et al. (eds.), Reed Healthcare Communication, Leiderdorp, The Netherlands, (1992), 201-212.
  • Bonfield W., Luklinska Z.B., High-resolution electron microscopy of a bone implant interface, In: The bone-Biomaterials Interface, Davies J.E., (ed), University of Toronto Press, Toronto, (1991), 89-94.
  • Denisen H.W., de Groot K., Makkes P.Ch., van den Hooff A., Klopper P.J., Tissue responce to dense apatite implants in rats". J.Biomed.Mater.Res., 14, (1980), 713-721.
  • Shinjo O., Makiyama T., Sugiura I., Kondo K., Clinical application of the hydroxyapatite implants for bone tumor. Bioceramics, 3, (1992), 287-293.
  • Hulbert S.F., The use of ceramics in medicine, Bioceramics v.3, (1992), 1-12.
  • DeGroot K., Klein C.P.A.T., Driessen A.A., Calcium phosphate bioceramics, J.Head & Neck Pathol., 4, (1985), 90-93.
  • Hench L.L., Wilson J., Surface-active biomaterials, Science, 226, (1984), 630-636.
  • Oonishi H., Kushitani S., Iwaki H., Sakai K., Ono H., Long term clinical results of using HAp in revision of total HIP replacement involving massive bone defects in the acetabulum. Bioceramics, v.8, (1995), 157-162.
  • Bonfield W., Composite materials: present and future. Bioceramics, v. 11, New York, NY, USA, (1998), 37-40.
  • Bonfield W., Bowman J., Grynpas M.D., Composite material for use in orthopaedics, US Patent 5, 1991, 017, 627.
  • Bonfield W., Design of bioactive ceramic-polymer composites. An introduction to bioceramics, Advanced Series in Ceramics, vol. 1, World Scientific,(1993), 299-303.
  • Ducheyne P., Marcolongo M., Schepers E., Bioceramic composites, ibid. (1993), 281-297.
  • Kikuchi M., Suetsugu Y., Tanaka J., Akao M., Preparation of calcium phosphate- CPLA composite. Bioceramics, v.9, (1996), 395-398.
  • Shikinami K.H., Okuno M., Ultra-high strength resorbable implants made from bioactive ceramic particle/polylactide composites. Bioceramics, v.9, (1996), 391-394.
  • Lacefield W.R., Hydroxyapatite coatings. An introduction to bioceramics, Advanced Series in Ceramics, vol. 1, World Scientific,(1993), 223-238.
  • Aoki H., Science and medical applications of hydroxyapatite, Japan Assoc. of Apatite Science, (JASS), Tokyo, (1991).
  • Geesink R.G.T., de Groot K., Klein C.P.A.T., Chemical implant fixation using hydroxyl-apatite coaings, Clin.Orthop., 225, (1987), 147-170.
  • Geesink R.G.T., de Groot K., Klein C.P.A.T., Bonding of bone to apatite-coated implants, J.Bone Joint Surg., 70-B, (1988), 17-22.
  • Cook S.D., Thomas K.A., Kay J.F, and Jarcho M., Hydroxyapatite-coated porous titanium for use as an orthopedic biologic attachement system. Clin. Orth.Rel.Res., 230, (1988), 303-312.
  • Inomoto M., Miyakawa S., Okada H., Mishima H., Sakane M., Yasumoto J., Ishii T., Miyanaga Y., Hayashi K., Follow-up study of cementless THA with hydroxyapatite. Bioceramics, v.8, (1995),185-191
  • De Santis E., Rinonapoli G., Doria C., Manunta A., SbernardoriM.C., Osseointegration in experimental HA-coated femoral stems. Bioceramics, v.10, (1997), 467-470.
  • LeGeros R.Z., LeGeros P., Daculsi G., Kijkowska R., Calcium phosphate biomaterials: Preparation, properties and biodegradation, Encyclopedic handbook of biomaterials and bioengineering. Part A: Materials, v.2, Marcel Dekker, Inc., N.Y., (1995), 1429-1463.
  • LeGeros R.Z., Zheng R.Z., Kijkowska R., Fan D., LeGeros J.P., Variations in composition and crystallinity of 'Hydroxyapatite (HA)' preparations. Characterization and Performance of Calcium Phosphate Coatings for Implants., ASTM STP 1196, Am. Soc. For Testing Materials, Philadelphia, 1993,43-53.
  • LeGeros R.Z., Kijkowska R., LeGeros J.P., Zheng R., Fan D., Calcium phosphate coatings on implants: dissolution characteristics, Transactions of 19ch ann. Meeting of Soc.for Biomaterials, Birmingham, Al, USA, 1993, abstract 221.
  • LeGeros R.Z., Kijkowska R., LeGeros J.P., Calcium phosphate coatings on implants, J.New Ceramics, 5, 1993, 43-46.
  • LeGeros R.Z., LeGeros J.P., Kim Y., Kijkowska R., Zheng R., Bautista C., Wong J.L., Calcium phosphates in plasma-sprayed HA coatings, Bioceramics: Materials and Applications, 48, 1995, 173-189.
  • Klein C.P.A.T., Patka P., van der Lubbe H.B.M., Wolke J.G.C., and de Groot K., Plasma sprayed coatings of of tetracalciumphosphate, hydroxyl-apatite, and a-TCP on titanium alloy: An interface study. J.Biomed. Mater. Res., 25, (1991), 53-65.
  • LeGeros R.Z., Kijkowska R., Abergas T., Legeros J.P., Kazimiroff J., pH-temperature dependance of calcium phosphate formation, Abstr. of Papers, j.Dent.Res., 1986,65,801.
  • Furukawa T., Matsusue Y., Yasanaga T., Kobyashi M., Fujita H., Shikinami Y., Okuno M., Nakamura T., Ultra-high-strength Hydroxyapatite/poly(L-Lactide) composite rods for internal fixation of bone fractures: in vivo study. Bioceramics, v. II, (1998),419-422.
  • Gross K.A., Philips M., Ben-Nissan B., Berndt C.C., Identification of the amorphous phase in plasma sprayed apatite coatings. Bioceramics, v.11, (1998), 177-181.
  • Legeros R.Z., Kim Y.E., Kijkowska R., Zurita V., Bleiwas C., Huand P.Y., HA/ACP ratios in calcium phosphate coatings on dental and orthopedic implants: effect on properties. Bioceramics, v. 11, (1998), 181-184.
  • Moroni A., Faldini C., Heikkila J., Soren-Toksvig Larsen, Magyar G., Stea S., Zhou J., Giannini S., A clinical study on hydroxyapatite coated external fixation pins. Bioceramics, v.11, (1998), 617-620.
  • Yasunaga T., Matsusue Y., Furukawa T., Shikinami Y., Okuno M., Nakamura T., Bonding behaviour of ultrahigh strength unsintered hydroxyapatite particle/poiy(L- lactide) composites to surface of tibial cortex in rabitts. J.Biomed.Mater.Res., 47, No3, (1999), 412-418.
  • Manley M.T., Edidin A., Epinette J.P., Geesink R.G., D'Antomio J.A., Capello W.N., Revision rates and radiographic changes associated with different socket interface technologies: Clinical results from 456 patients at five to eight years follow-up. Bioceramics, v.10, (1997), 157-159.
Typ dokumentu
Bibliografia
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Identyfikator YADDA
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