Solubility and Crystallinity in Relation to Fluoride Content of Fluoridated Hydroxyapatites

Kay, M.I. and Young, R.A. : Crystal Structure of Hydroxyapatite, Nature 204 :1050-1052,1964.

Driessens, F.C.M. : Relation Between Apatite Solubility and Anti-cariogenic Effect of Fluoride, Nature 243:420-421, 1973.

Moreno, E.C. ; Kresak, M. ; and Zahrad-Nik , R.T. : Fluoridated Hydroxyapatite Solubility and Caries Formation, Nature 247:64-65, 1974.

Arends, J. : Dislocations and Dissolution, Caries Res 7:261-268, 1973.

Okazaki, M. ; Aoba T. ; Doi, Y. ; Takahashi, J. ; and Moriwaki, Y. : The Effect of the Calcium-phosphate Feed Molar Ratios on Apatite Formation , J Osaka Univ Dent Sch 19:87-93,1979.

Patel, P.R. and Brown, W.E. : Thermodynamic Solubility Product of Human Tooth Enamel: Powdered Sample , J Dent Res 54: 728-736,1975.

Napper, D.H. and Smythe, B.M. : The Dissolution Kinetics of Hydroxyapatite in the Presence of Kink Poisons , J Dent Res 45: 1775-1783,1966.

Eastoe, J.E. : Method for the Determination of Phosphate, Calcium, and Protein in Small Portion of Mineralized Tissues, Richelle, L.J. and Dallemagne, M.J. , Eds., Liege, 1965.

Moreno, E.C. ; Kresak, M. ; and Zahrad-Nik , R.T. : Physicochemical Aspects of Fluoride-apatite Systems Relevant to the Study of Dental Caries , Caries Res ll(Suppl. 1) :142-171, 1977.