Calcium phosphate materials containing alumina: Raman spectroscopical, histological, and ultrastructural study.

Variable alumina quantities were added to two types of calcium phosphate materials-hydroxyapatite ceramics with Ca/P = 1.67 and calcium metaphosphate glass with Ca/P = 1--in order to increase their mechanical properties. Raman spectroscopy shows that alumina interacts with the phosphate group of these materials, while thermomechanical analysis shows that their elastic modulus has a value similar to that of bone. Histological sections demonstrate that the surface in close contact with ceramic materials shows a good integration between bone and biomaterial. All ceramic specimens are penetrated by well-stained, presumably glycoprotein, matrix, that consistently forms a thin network in close contact with the implant. After 6 weeks bone growing on both ceramic and glass shows signs of maturation with a lamellar structure and an apparently normal mineralization. In the case of the glass, inside this newly formed bone, were often observed two layers, the internal one showing a well defined lamellar structure.

[1]  U. Gross,et al.  The effect of glass-ceramic bone implant materials on the in vitro formation of hydroxyapatite. , 1988, Journal of biomedical materials research.

[2]  A. Krajewski,et al.  Mineralization and calcium fixation within a porous apatitic ceramic material after implantation in the femur of rabbits. , 1988, Journal of biomedical materials research.

[3]  G. Daculsi,et al.  Significance of the Porosity and Physical Chemistry of Calcium Phosphate Ceramics Biodegradation‐Bioresorption , 1988, Annals of the New York Academy of Sciences.

[4]  J. J. Grote,et al.  Bioreactions at the tissue/hydroxyapatite interface. , 1985, Biomaterials.

[5]  T. Yamamuro,et al.  A new glass-ceramic for bone replacement: evaluation of its bonding to bone tissue. , 1985, Journal of biomedical materials research.

[6]  W. Vogel,et al.  Interface reactions between machinable bioactive glass-ceramics and bone. , 1985, Journal of biomedical materials research.

[7]  U. Gross,et al.  The interface of various glasses and glass ceramics with a bony implantation bed. , 1985, Journal of biomedical materials research.

[8]  P. Ducheyne Bioglass coatings and bioglass composites as implant materials. , 1985, Journal of biomedical materials research.

[9]  A. Watanabe,et al.  Calcium phosphate glass-ceramic crown prepared by lost-wax technique , 1984 .

[10]  C. Klein,et al.  Relationship between the degradation behaviour of calcium phosphate ceramics and their physical-chemical characteristics and ultrastructural geometry. , 1984, Biomaterials.

[11]  A. Krajewski,et al.  The behaviour of apatite-based ceramics in relation to the critical 1150°–1250°C temperature range , 1984 .

[12]  P. Rabischong,et al.  Development of phosphate glass-ceramics for bone implants , 1983 .

[13]  C. Klein,et al.  Biodegradation behavior of various calcium phosphate materials in bone tissue. , 1983, Journal of biomedical materials research.

[14]  Tsenchin Yuan,et al.  Femoral components (cup) made of glass-ceramics , 1982 .

[15]  Qingming Yang,et al.  Preparation of phosphate glass composite and their prosthetic applications , 1982 .

[16]  D. Nelson,et al.  Low-temperature laser Raman spectroscopy of synthetic carbonated apatites and dental enamel , 1982 .

[17]  Michael Jarcho,et al.  Calcium phosphate ceramics as hard tissue prosthetics. , 1981, Clinical orthopaedics and related research.

[18]  P. Ducheyne,et al.  In vivo surface activity of a hydroxyapatite alveolar bone substitute. , 1981, Journal of biomedical materials research.

[19]  P. Klopper,et al.  Tissue response to dense apatite implants in rats. , 1980, Journal of biomedical materials research.

[20]  U. Gross,et al.  The anchoring of glass ceramics of different solubility in the femur of the rat. , 1980, Journal of biomedical materials research.

[21]  L L Hench,et al.  Compositional dependence of the formation of calcium phosphate films on bioglass. , 1980, Journal of biomedical materials research.

[22]  B. Blenckè Compatibility and long-term stability of glass-ceramic implants. , 1978, Journal of biomedical materials research.

[23]  H. Fukui,et al.  Implantation of New Calcium Phosphate Glass-Ceramics , 1977, Journal of dental research.

[24]  M. L. Bartlett,et al.  Compositional analysis of apatites with laser-raman spectroscopy:(oh,f,cl)apatites. , 1974, Archives of oral biology.

[25]  R. S. Krishnan,et al.  Raman effect of corundum , 1967 .

[26]  E. P. Egan,et al.  Thermodynamic Properties of Calcium Metaphosphate, 10 to 1400°K. , 1956 .