Intra-Oral Hydrogen-Ion Concentrations Associated With Dental Caries Activity

Miller, W.D. , Micro-organisms of the Human Mouth, (Philadelphia, S. S. White Dental Manufacturing Company, 1890).

Miller, B.F. , Inhibition of Experimental Dental Caries in the Rat by Fluoride and Iodoacetic Acid, Proc. Soc. Exp. Biol. and Med., 39: 389, 1938.

Greenwald, I. , The Dissociation of Some Calcium Salts, J. Biol. Chem., 124:437, 1938.

Muntz, J.A. , Production of Acids from Glucose by Dental Plaque Material, J. Biol. Chem., 148: 225, 1943.

Miller, W.D. , Dental Caries, Transactions of the Fourth International Dental Congress, 1904, Vol. I, 237.

Armstrong, W.D. , AND Brekhus, P.J. , Possible Relationship Between the Fluorine Content of Enamel and Resistance to Dental Caries, J. D. Res. , 17: 393, 1938.

Volker, J.F. , Solubility of Fluorosed Enamel and Dentin, Proc. Soc. Exp. Biol. and Med., 43: 643, 1940.

Applebaum, E. , The Radiopaque Surface Layer of Enamel and Caries, J. D. Res., 19: 41,1940.

Miller, B.F. , Muntz, J.A. , AND Bradel, S. , Decomposition of Carbohydrate Substrates by Dental Plaque Material, J. D. Res., 19:473, 1940.

Swerdlove, C.K. , Relation Between the Incidence of Dental Caries and the pH of Normal Resting Saliva, J. D. Res., 21: 73, 1942.

Babkin, B.P. , The Physiology of the Salivary Glands, in Dental Science and Dental Art, S. Gorden , ed. ( Philadelphia, Lea and Febiger: 1938 ) p. 236.

Hanke, M.T. , Diet and Dental Health, (Chicago, The University of Chicago Press:) 1933, p. 112.

Holt, L.E. , Lamer, V.K. , AND Chown, H.B. , Studies in Calcification I, J. Biol. Chem., 64: 509, 1925.

Enright, J.J. , Friesell, H.E. , AND Trescher , M. 0., Studies of the Cause and Nature of Dental Caries, J. D. Res., 14: 218, 1934.

Bibby, B.G. , Volker, J.F. , AND Vankesteren, M. , Acid Production and Tooth Decalcification by Oral Bacteria, J. D. Res., 21: 71, 1942.

Etherington, J.W. , AND Trimble, H.C. , Acidity in Plaques, J. D. Res., 14: 218, 1934.

Stephan, R.M. , Hydrogen-Ion Concentration of the Dental Plaque , J. D. Res., 17: 251, 1938.

Idem , Changes in Hydrogen-Ion Concentrations on Tooth Surfaces and in Carious Lesions, J.A.D.A., 27: 718, 1940.

Stephan, R.M. , in Dental Caries, (American Dental Association, New York: 1939 ) p. 148.

Fosdick, L.S. , Campaigne, E.E. AND Fancher, 0., Rate of Acid Formation in Dental Caries: The Etiology of Dental Caries, Ill. D. J., 10: 85, 1941.

Fosdick, L.S. , AND Burrill, D.Y. , The Effect of Pure Sugar Solutions on the Hydrogen-Ion Concentration of Carious Lesions, Fortnightly Review, Chicago Dental Society, 6: 7, Dec. 1, 1943.

Stephan, R.M. , AND Miller, B.F. , A Quantitative Method for Evaluating Physical and Chemical Agents which Modify Production of Acids in Bacterial Plaques on Human Teeth, J. D. Res., 22: 45, 1943.

Blayney, J.R. , Kesel, R.G. , AND Wach, E.C. , Direct Microscopic Study of Plaque Material , J. D. Res., 15: 326, 1936.

Bunting, R.W. , AND Jay, P. , in Dental Caries 2nd ed. (American Dental Association, New York: 1941) p. 76.

Anderson, B.G. , Clinical Study of Arresting Dental Caries, J. D. Res., 17: 443, 1938.