Diffusion fluxes of two anionic species through hydroxyapatite membranes were found to be reduced up to 50% by the presence of adsorbed salivary pellicles developed on the membrane surfaces. By contrast, water fluxes were only marginally affected, indicating that salivary pellicles display ionic permselectivity. This property is used to explain a remarkable protection of the enamel observed when salivary pellicles were developed on extracted teeth before exposure to acid lactate buffers.
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References
1.
Hay, D.I. : The Adsorption of Salivary Proteins by Hydroxyapatite and Enamel, Arch Oral Biol12: 937-946, 1967.
2.
Turner, E.P. : The Integument of the Enamel Surface of the Human Tooth: II. The Acquired Enamel Cuticle, Dent Practitioner8: 373-382, 1958.
3.
Dawes, C.; Jenkins, G.N.; and Tonge, C.H.: The Nomenclature of the Integuments of the Enamel Surface of Teeth, Br Dent J115: 65-68, 1963.
4.
Meckel, A.H. : The Formation and Properties of Organic Films of Teeth, Arch Oral Biol10: 585-597, 1965.
5.
Mayhall, C.W. : Concerning the Composition and Source of the Acquired Enamel Pellicle of Human Teeth, Arch Oral Biol15: 1327-1341, 1970.
6.
Sonju, T., and Rölla, G.: Chemical Analysis of the Acquired Pellicle Formed in Two Hours on Cleaned Human Teeth In Vivo, Caries Res7: 30-38, 1973.
7.
Armstrong, W.G. : The Composition of Organic Films Formed on Human Teeth, Caries Res1: 89-103, 1967.
8.
Darling, A.I. : Studies on the Early Lesion of Enamel Caries with Transmitted Light, Polarized Light and Radiography, Br Dent J101: 289-297 and 329-341, 1956.
9.
Darling, A.I.: The Distribution of the Enamel Cuticle and Its Significance, Proc R Soc Med36: 499-502, 1943.
10.
Dobbs, E.C. : Surface Resistance of Human Enamel to Acid Decalcification, J Dent Res12: 581-584, 1932.
11.
Hay, D.I. ; Gibbons, J.R.; and Spinell, D.M.: Characteristics of Some High Molecular Weight Constituents with Bacterial Aggregating Activity from Whole Saliva and Dental Plaque, Caries Res5: 111-123, 1971.
12.
McGaughey, C. ; Field, B.D.; and Stowell, E.C.: Effects of Salivary Proteins on the Adsorption of Cariogenic Streptococci by Hydroxyapatite, J Dent Res50: 917-922, 1971.
13.
Meckel, A.H.: The Nature and Importance of Organic Deposits on Dental Enamel. Caries Res2: 104-114, 1968.
14.
Takaesu, Y. ; Moreno, E.C.; and Brudevold , F.: EMF Measurements Across Hydroxyapatite Membranes, Arch Oral Biol18: 717-728, 1973.
15.
Gray, J.A.: Kinetics of the Dissolution of Human Dental Enamel in Acid, J Dent Res41: 633-645, 1962.
16.
Moreno, E.C. , and Zahradnik, R.T.: Chemistry of Enamel Subsurface Demineralization In Vitro, J Dent Res53: 226-235, 1974.
17.
Moreno, E.C. , and Burke, E.J.: A Diaphragm Cell and the Procedure for Studying Isothermal Diffusion in Dental Enamel, Arch Oral Biol19: 417-420, 1974.
18.
Gordon, A.R. : The Diaphragm Cell Method of Measuring Diffusion , Ann NY Acad Sci46: 285-308, 1945.
19.
Gustafson, G.: The Histopathology of Caries of Human Dental Enamel: With Special Reference to the Division of the Carious Lesion into Zones, Acta Odontol Scand15: 13-55, 1957.
20.
Burke, E.J. , and Moreno, E.C.: Diffusion Fluxes of Tritiated Water Across Human Enamel Membranes, Arch Oral Biol20: 327-332, 1975.
21.
Outhred, R.K. , and George, E.P.: Nuclear Magnetic Resonance Study of Hydrated Systems Using the Frequency Dependence of the Relaxation Processes, Biophys J13: 83-96, 1973.
22.
Mcgaughey, C., and Stowell, E.C.: Adsorption of Salivary Proteins by Hydroxyapatite: Relations Between the Effects of Calcium Ion, Hydrogen Ions, Temperature, and Exposure Time, J Dent Res50 :542-550, 1971.