Factors Affecting Mineral Accretions in the Enamel-Solution Interface

Backer Dirks O. : The Benefits of Water Fluoridation, Caries Res (suppl) 8: 2–15, 1974.

Koulourides T. : Experimental Changes of Enamel Mineral Dentistry, in Harris R.S. (ed): Art and Science of Dental Caries Research, New York: Academic Press, Inc., 1968, p 355.

Feagin F.F. , and Jeansonne B.G. : Effective Fluoride Concentrations to Promote Apatite Mineralization at the Enamel Surface, Ala J Med Sci 10: 107–114, 1973.

Gonzalez M. : Chemical Kinetics, Dentistry and Electron Microscopy of Enamel Surface Reactions, PhD thesis, University of Alabama, in Birmingham, 1973.

Feagin F. ; Gonzalez M. ; and Jeansonne B. : Kinetic Reactions of Calcium, Phosphate, and Fluoride Ions at the Enamel-Solution Interface, Calcif Tissue Res 9: 113–127, 1972.

Francis M.D. , and Webb N.C. : Hydroxyapatite Formation from a Hydrated Calcium Monohydrogen Phosphate Precursor, Calcif Tissue Res 6: 335–342, 1971.

McCann H.G. , and Bullock F.A. : Reactions of Fluoride Ion with Powdered Enamel and Dentin, J Dent Res 34: 59–67, 1955.

Jeansonne B.G. , and Feagin F.F. : Enamel Dissolution in a Weak Acid Containing 0.05, 0.5, or 5.0 mM Sodium Fluoride, J Dent Res 53: 414–417, 1974.

Higuchi W.I. ; Gray J.A. ; Henderson J.J. ; and Patel P.R. : Mechanisms of Enamel Dissolution in Acid Buffers, J Dent Res 44: 330–341, 1965.

Volker J.F. ; Hodge H.C. ; Wilson H.J. ; and Von Voorhis S.N. : The Adsorption of Fluorides by Enamel, Dentin, Bone and Hydroxyapatite as Shown by the Radioactive Isotope, J Biol Chem 134: 543–548, 1940.