1983
DOI: 10.1159/000260696
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Chemical Stability of Carbonate- and Fluoride-Containing Apatites

Abstract: Apatites containing CO3 and/or F were synthesized and exposed to acid buffer. The extent of dissolution was determined (as mMCa/ml buffer solution) and the apatites characterized by X-ray diffraction, IR absorption, and chemical analyses before and after acid exposure. Results showed that: (i) the extent of dissolution was directly proportional to the CO3 contents but that the simultaneous presence of F in the apatite minimized the adverse CO3 effect; (ii) the extent of dissolu… Show more

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Cited by 181 publications
(113 citation statements)
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“…Interestingly, despite the comparable values in SSA between carbonated doped HA (C-CDHA C ) and the non-carbonated substrates (CDHA C , CDHA F ), the degradation behaviour was significantly lower for the carbonated samples (p<0.05). This was unexpected, since the incorporation of carbonate ions in the hydroxyapatite lattice is known to markedly disturb the crystal lattice [52] increasing its solubility [53][54][55]. Quantitatively, C-CDHA C resorption was reduced by a 30-50 % compared to CDHA F , regardless of the L/P ratio.…”
Section: Discussionmentioning
confidence: 99%
“…Interestingly, despite the comparable values in SSA between carbonated doped HA (C-CDHA C ) and the non-carbonated substrates (CDHA C , CDHA F ), the degradation behaviour was significantly lower for the carbonated samples (p<0.05). This was unexpected, since the incorporation of carbonate ions in the hydroxyapatite lattice is known to markedly disturb the crystal lattice [52] increasing its solubility [53][54][55]. Quantitatively, C-CDHA C resorption was reduced by a 30-50 % compared to CDHA F , regardless of the L/P ratio.…”
Section: Discussionmentioning
confidence: 99%
“…The relation between carbonate apatite and hydroxyapatite is important, because carbonate increases the chemical reactivity of apatites. This occurs by an increase of the solubility of the product and rate of dissolution in acids, and by reducing the thermal stability (34). Since carbonate is known as an effective crystal growth inhibitor, carbonate apatite consists of smaller crystals than hydroxyapatite (7).…”
Section: Calcium Phosphatesmentioning
confidence: 99%
“…The carbonate-apatite was thought to be relevant to the early stages of dental decay, as it was apparent that carbonate inclusion in apatite markedly changed its properties and increased its solubility. Fluorapatite is the most stable among the dental apatites, and has less solubility and more acid resistance than hydroxyapatite (LeGeros et al, 1996;Mathew & Takagi, 2001;LeGeros & Ming, 1983;Ten Cate, 1997;Legeros, 1991;Gruner et al, 1937).…”
Section: Figurementioning
confidence: 99%