1994
DOI: 10.1016/0272-8842(94)90050-7
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Preparation of α- and β-tricalcium phosphate ceramics, with and without magnesium addition

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Cited by 136 publications
(74 citation statements)
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“…The addition of MgO to ␤-TCP was found to enable sintering of ␤-TCP, without phase transition, at a higher temperature than that of MgO-free ␤-TCP. 14,15 In addition, when ␤-TCP with low Ca/P ratio was sintered at 1300°C, little conversion into ␣-TCP occurred. 16 Ryu et al reported that ␤-TCP doped with calcium pyrophosphate induced a phase transformation to ␣-TCP at 1250°C.…”
Section: Introductionmentioning
confidence: 98%
“…The addition of MgO to ␤-TCP was found to enable sintering of ␤-TCP, without phase transition, at a higher temperature than that of MgO-free ␤-TCP. 14,15 In addition, when ␤-TCP with low Ca/P ratio was sintered at 1300°C, little conversion into ␣-TCP occurred. 16 Ryu et al reported that ␤-TCP doped with calcium pyrophosphate induced a phase transformation to ␣-TCP at 1250°C.…”
Section: Introductionmentioning
confidence: 98%
“…The bioresorption rate was also controlled by the coexistence of a-with b-TCP, based on their different degradation rates. Famery et al (1994) reported a fabrication process for TCP ceramics with the a-and b-TCP ratio being controlled by the addition of magnesium. We (Oishi et al 2004;Kamitakahara et al 2005a) attempted the fabrication of TCP porous ceramics with a-and b-TCP ratios controlled by the addition of Mg, Zn and Fe because additives such as Mg (Ando 1958) and Zn (Kreidler & Hummel 1967) raise the temperature of transformation of TCP from the b-to a-phase.…”
Section: Bioresorbable Ceramicsmentioning
confidence: 99%
“…In the case of synthetic materials used for repairing bone tissue, some of the most widely used clinically are calcium phosphates (CaP), which are well tolerated by the body due to their chemical homology to native bone mineral (Bohner et al, 2012). CaP provide a particularly flexible platform for material design because the physicochemical and topographical characteristics can be tuned by modifying their synthesis parameters (Osborn and Newesely, 1980;Famery et al, 1994;Dorozhkin, 2010). Of these materials, a small subset can stimulate the formation of bone even in heterotopic, non-bony locations without exogenous cells or growth factors (LeGeros, 2008;Barradas et al, 2011).…”
Section: Introductionmentioning
confidence: 99%