Literature cited
Handbook of New Ceramics [in Russian], Naukova Dumka, Kiev (1991).
L. Ya. Berzinya and U. Ya. Sedmalis, Glass-Ceramic Biomaterials: Structure, Properties and Use of Phosphates, Fluoride, and Chalcogenic Glasses [in Russian], Reports from Conference, Riga (1990), p. 85.
M. A. Malokov, S. V. Lipochkin, Yu. M. Mosin, L. N. Pimieva, “Ceramics from hydroxyapatite for medical purposes,” Steklo Keram., No. 7, 28–29 (1991).
L. M. Silich, N. I. Sayats, O. P. Chudakov, M. A. Shandyukova, et al., “Sitalls as bio-implants,” Steklo Keram., No. 4, 26–28 (1992).
S. T. Suleimenov, A. A. Mirzakhodzhaev, A. P. Yumankov, V. V. Kravchenko, “Forming crystalline structures of biositall by thermoradiation,” Steklo Keram., No. 5, 26–27 (1992).
T. Kitsugi, T. Yamamuro, T. Nakamura, and T. Kokubo, “Bone-bonding behavior of MgO-CaO-SiO2-P2O5-CaF2 glass (mother glass of AW-glass-ceramics),” J. Biomedical Materials Research, No. 6, 631–648 (1989).
E. E. Stroganova and N. Yu. Mikhailenko, “Crystallization of titania, potassium-phosphate glasses: structure, properties and, use of phosphates, fluoride and chalgogenic glasses [in Russian],” Reports from Conference, Riga (1990), p. 63.
Shyu Jii-Jyn and Wu Jenn-Ming, “Spherolitic growth of apatite in MgO-CaO-SiO2-P2O5 glass,” J. Am. Ceram. Soc.,74, No. 7, 1532–1540 (1991).
K. Ohura, T. Nakamura, T. Yamamuro, et al., “Bone-bonding ability of P2O5-free CaO-SiO2 glasses,” J. Biomedical Research, No. 3, 357–365 (1991).
H. O. Anderson, Kaj H. Karlsson, and L. Niemi, Modelling of the biological behavior of silicate glasses: [Pap.] Finish Chemical Congress, Helsinki, 30 Oct–1 Nov, 1990, Kemia-Kemi,17, No. 10, B, 975 (1990).
Yamada Fumiaki, Ivasaki Kiromichi, and Kaeneko Yasunari, “Obtaining hydroxy-apatites of fibrous structure, using sodium alginate,” Kino dzaire,10, No. 7, 46–51 (1990).
G. Bonel, J. C. Heughebaert, M. Heughebaert, et al., “Apatitic calcium orthophosphates and related compounds for biomaterials preparation,” Annals of New York Academy of Sciences, 523, 115–130 (1988).
R. E. Holmes and H. K. Hagler, “Porous hydroxy-apatite as a bone graft substitute in cranial reconstruction: a histometric study,” Plastic and Reconstructive Surgery with Transplantation Bulletin, No. 5, 662–671 (1988).
A. Krajewski, A. Ravaglioli, R. Mongiorgi, and A. Moroni, “Mineralization and calcium fixation within a porous apatite ceramic material after implantation in the femur of rabbits,” J. Biomedical Materials Research, No. 6, 445–457 (1988).
I. Orly, M. Gregoire, J. Menanteau, et al., “Chemical changes in hydroxy-apatite biomaterial under in vivo and in vitro biological conditions,” Calcified Tissue International, Jul. 45 (1), 20–26 (1991).
B. R. Heywood, N. H. Sparks, R. P. Shellis, et al., “Ultrastructure, morphology and crystal growth of biogenic and synthetic apatites,” Connective Tissue Research, No. 2, 103–119 (1990).
F. C. Driessens, “Physiology of hard tissues in comparison with the solubility of synthetic calcium phosphates,” Annals of New York Academy of Sciences, 523, 131–136 (1988).
D. R. Mattie, J. R. Latendresse, and P. K. Bajpai,“Biocompatability of ALCAP (Al, Ca, and P) ceramics with erythrocytes and muscle,” IRCS Medical Science,13, 420–421 (1985).
D. R. Mattie and P. K. Bajpai, “Biocompatability testing of aluminum calcium phosphoric acid (ALCAP) ceramics,” IRCS Medical Science,14, 641–643 (1986).
O. Yanagisawa and S. Ito, “Properties of SiC whisker reinforced glass-ceramic composite for biomedical application,” Reports of the Research Laboratory, Asahi Glass Co. Ltd.,38, No. 2, 217–231 (1988).
P. Groot, J. G. Laan and L. Laas, “Plasma sprayed Ti-coatings for first wall protection in fusion devices,” Euroceramics,3, Engineering Ceramics Including Bioceramics, Elsevier Applied Science, London (1989).
L. Ya. Berzinya, R. A. Tsimdin'sh, and S. E. Lagzdinya, “Structure of calcium phosphate glass ceramic biomaterials: structure, properties and use of phosphate, fluoride, and chalcogenic glasses,” Reports of Conference, Riga (1990), p. 62.
Li Lihua, Chen Yiwei, Xia Jida, Bioactive Glass-ceramic for Prosthetic Application, XV Int. Congress on Glass, Leningrad, 108–113 (1989).
T. Kokubo, H. Kushitani, C. Ohtsuki, et al., Bioactivity of Glass-ceramics, XV Int. Congress on Glass, Leningrad (1989), p. 114–119.
Preparazione di compositi di vetro a superficie reattiwa contenenti idrossiapatite e renanite e loro comportamento alla dissoluzione, I. Kangasniemi, O. Andersson, J. Wolke, K. Groot, Ceramurgia,21, No. 2, 84–88 (1991).
“Hydroxy-apatite production trials,” Ceram. Ind. Int.101, No. 1087, 41 (1990).
S. Yamada, M. Matsue, J. H. Lee, “The reacting of peri-implant tissues to titanium alloy and apatite-coated plants during the healing phase,” Nippon Shishubyo Gakkai Kaishi, Dec. 30 (4), 1021–1031 (1988).
S. Williams, “Advances in medical ceramics,” Ceram. Ind. Int.,100, No. 1084, 18–19 (1990).
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Translated from Steklo i Keramika, No. 2, pp. 18–20, February, 1993.
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Medvedev, E.F. Ceramics and glass-ceramic materials for bone implants. Glass Ceram 50, 81–85 (1993). https://doi.org/10.1007/BF00682500
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DOI: https://doi.org/10.1007/BF00682500