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Calcium phosphate formation

Peltola, M., Jokinen, M., Rahiala, H., Levanen, E., Rosenholm, J.B., Kangasniemi, I. and Yli-Urpo, A. (1999) Calcium phosphate formation on porous sol-gel-derived Si02 and Ca0-P205-Si02 substrates in vitro. Journal of Biomedical Materials Research, 44, 12-21. [Pg.395]

The percent inhibition was calculated according to the equation in Table II. As shown in Table II, the results indicated that when compared to the polyacrylic acid, copolymers of acrylic acid and N-(hydroxyalkyl)-acrylamide were quite effective in inhibiting calcium phosphate formation at the normal use dosage of 10 to 20 ppm. Among the three copolymers tested, acrylic acid/... [Pg.286]

Termine, J. D., Posner, A. S. Calcium phosphate formation in vitro. I. Factors affecting initial phase separation. Arch, Biochem. Biophys. 140, 307 (1970)... [Pg.122]

Bradt JH, Mertig M, Teresiak A, Pompe W (1999) Biomimetic mineralization of collagen by combined fibril assembly and calcium phosphate formation. Chem Mater 11(10) 2694—2701... [Pg.61]

Eanes, E.D., Gillessen, I.H., and Posner, A.S. Mechanism of conversion of non-crystalline calcium phosphates to crystalline hydroxyapatite, p 373-375, "Proc. Int. Cong, on Crystal Growth, Boston, 1966. Pergamon Press, Oxford, 1967. Termine, J.D., Peckauskas, R.A., and Posner, A.S. Calcium phosphate formation in vitro. II. Effect of environment on amorphous crystalline transformation. Arch. Biochem. Bio-phys. 140. 318-325 (1970). [Pg.496]

Moritz, N., Jokinen, M., Peltola, T., Areva, S., and Yli-Urpo, A. (2003) Local induction of calcium phosphate formation on Ti02 coatings on titanium via surface treatment with a C02 laser. J. Biomed. Mater. Res., 65A (1), 9-16. [Pg.305]

Luo, H.L., Xiong, G.Y., and Wan, Y.Z. (2014) Calcium phosphate formation on three-dimensional nanofibrous templates and influence of surface nature. Acta Biomater., in the press. [Pg.437]

J. D. Termine, R. A. Peckauskas and A. S. Posner, Calcium Phosphate Formation In Vitro II. Effects of Environment on Amorphous-Crystalline Transformation, Arch. Biochem. Biophys., 1970,140, 318-325. [Pg.105]

Metallic ions may influence the formation of calcium phosphates in different ways. Some inhibit (nickel, tin, cobalt, manganese, copper, zinc, gallium, thalium, molybdenum, cadmium, antimony, magnesium, and mercury), a few stimulate (iron [ferric] and iridium) whereas others have no effect (cerium, titanium, chromium, iron [ferrous], iridium, palladium, platinum, silver, gold, aluminum, and lead) (Okamoto and Hidaka, 1994). Figure 9.14 gives the induction time for calcium phosphate formation vs. concentration for the above metal ions. [Pg.446]

Samur, R., Ozyegin, L., Agaogullari, N., Oktar, F.N., Agatopoulos, S., Kalkandelen, C., et al., 2013. Calcium phosphate formation from sea urchin (Brissus latecarinatus) via modified mechano chemical (ultrasonic) conversion method. MetaUurgia 52 (3), 375-378. [Pg.31]

Anderson, 0. H. Karlsson K. H.. Kanganiemi, K (1990.). Calcium phosphate formation at the smface of bioactive in vivo. J. Non-Cryst. Solids, 119, 290-296. [Pg.129]

L. L. (1994) Calcium phosphate formation on sol-gel-derived bioactive glasses in vitro. J, Biomed, Mater, Res., 28, 693-698. [Pg.1368]

Babaei Z, Jahanshahi M, Rabiee SM. The fabrication of nanocomposites via calcium phosphate formation on gelatin-chitosan network and the gelatin influence on the properties of biphasic composites. Mater Sci Eng C 2013 33(l) 370-5. [Pg.303]

See other pages where Calcium phosphate formation is mentioned: [Pg.195]    [Pg.164]    [Pg.166]    [Pg.143]    [Pg.135]    [Pg.138]    [Pg.240]    [Pg.85]    [Pg.132]    [Pg.1736]    [Pg.122]   
See also in sourсe #XX -- [ Pg.195 ]



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