The effectiveness of inorganic calcifying solutions to remineralize enamel with subsurface demineralization decreased with saliva pre-treatments conducive to the formation of enamel pellicles. Greater reductions in remineralization rates occurred with longer pellicle formation times. It is suggested that enamel pellicles may act to control surface deposition and favor subsurface precipitation.
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Feagin, F.; Patel, P.R.; Koulourides, T.; and Pigman, W.: Study of the Effect of Calcium, Phosphate, Fluoride and Hydrogen Ion Concentrations on the Remineralization of Partially Demineralized Human and Bovine Enamel Surfaces, Arch Oral Biol16 :535-548, 1971.
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Curby, W.A. : Device for Collection of Human Parotid Saliva , J Lab Clin Med41: 493-496, 1953.
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Zahradnik, R.T.; Propas, D.; and Moreno, E.C.: In vitro Enamel Demineralization by Streptococcus mutans in the Presence of Salivary Pellicles , J Dent Res56:1107-1110, 1977 .
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Hay, D. I. and Gron, P.: Calcium Phosphate Precipitation Inhibition in Human Saliva, IADR Progr & Abst54:No. 92, 1975.
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Koulourides, T.; Feagin, F.; and Pigman, W.: Effect of pH, Ionic Strength and Cupric Ions on the Rehardening Rate of Buffer-softened Human Enamel, Archs Oral Biol13:335-341, 1968.
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Silverstone, L.M. and Johnson, N.W.: The Effect on Sound Enamel of Exposure to Calcifying Fluids in vitro, Caries Res5:323-342, 1971.
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