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 Dent Res22:45-51, 1943.
2.
Von Bertalanffy, L.: General System Theory: Foundations, Development, Applications, New York: George Braziller Inc., 1968.
3.
Bray, H.G., and White, K.: Kinetics and Thermodynamics in Biochemistry, 2nd ed, New York: Academic Press, 1966, pp 197-204.
4.
, Stephan, R.M. : Changes in Hydrogen-Ion Concentration on Tooth Surfaces and in Carious Lesions, JADA27:718-723, 1940.
Strålfors, A.: Investigations into the Bacterial Chemistry of Dental Plaques, Odont T58:153-341, 1950.
7.
Sillen, L.G.: Treatise on Analytical Chemistry. Part I. Theory and Practice, Kolthoff, I.M. and Elving, P.J., (eds), New York: Interscience , 1959, p 277.
8.
Kleinberg, I.: Studies on Dental Plaque. I. The Effect of Different Concentrations of Glucose on the pH of Dental Plaque In Vivo, J Dent Res40:1087-1111, 1961.
9.
Kleinberg, I.: Effect of Urea Concentration on Human Plaque pH Levels In Situ, Arch Oral Biol12:1475-1484, 1967.
10.
Kleinberg, I.: Biochemistry of the Dental Plaque, in Staple, P.H. (ed): Advances Oral Biol, Vol 4, New York: Academic Press, 1970, p 43.
11.
Kleinberg, I., and Jenkins, G.N.: The pH of Dental Plaques in the Different Areas of the Mouth Before and After Meals and their Relationship to the pH and Rate of Flow of Resting Saliva, Arch Oral Biol9:493-516, 1964.
12.
Singer, D.L., and Kleinberg, I.: NH3 Formation in Plaque In Situ, abstracted IADR, Program and Abstracts of Papers, No. 637, 1969.
13.
Lamer, V.K. , and Healy, T.W.: Adsorption-Flocculation Reactions of Macromolecules at the Solid-Liquid Interface, Rev Pure Appl Chem13:112-133, 1963.
14.
Silverman, G., and Kleinberg, I.: Studies on Factors Affecting the Aggregation of the Microorganisms in Human Dental Plaque, Arch Oral Biol12:1407-1416, 1967.
15.
Nevin, R.B.: The Diet and Mastication; Their Effects on Diffusion and on the Inception of Dental Caries, Dunedin: Progress Printing Co., Ltd. 1954.
16.
Halhoul, M.N., and Kleinberg, I.: Catabolism of Glucose, Fructose, Sucrose, Dextrans and Levans in a Salivary Sediment System, abstracted IADR Program and Abstracts of Papers, No. 383 , 1969.
17.
Wood, J.M.: The State of Hexose Sugar in Human Dental Plaque and its Metabolism by the Plaque Bacteria, Arch Oral Biol14:161-168, 1969.
18.
Korayem, M., and Kleinberg, I.: Effect of pH on Glucose Utilization and Acid Formation by Salivary Sediment, abstracted IADR Program and Abstracts of Papers, No. 586, 1970 .
19.
Kleinberg, I.: Dental Caries, in Nolte, W.A. (ed): Oral Microbiology St. Louis, C.V. Mosby, Chap 8, 1968.
20.
Kleinberg, I. , and Jenkins, G.N.: Further Studies on the Effect of Carbohydrate Substrates on Plaque pH In Vivo, J Dent Res38:704-705, 1959.
21.
Kleinberg, I.: Studies on the Influence of Diet on the Dental Plaque with Special Reference to the Initiation of Caries, PhD thesis, University of Durham, England, 1958.
22.
Ludwig, T.G., and Bibby, B.G.: Acid Production from Different Carbohydrate Foods in Plaque and Saliva, J Dent Res36:56-60, 1957.
23.
Caldwell, R.C. , and Bibby, B.G.: The Effect of Foodstuffs on the pH of Dental Cavities, JADA57:685-692, 1958.
24.
Dirksen, T.R. ; Little, M.F.; Bibby, B.G.; and Crump, S.L.: The pH of Carious Cavities. I. The Effect of Glucose and Phosphate Buffer on Cavity pH, Arch Oral Biol7:49-58, 1962.
25.
Deboever, J. , and Mühlemann, H.R.: pH of Interproximal Plaque with Regard to Continuous Sucrose Application, Helv Odont Acta13:97-99, 1969.
26.
Koulourides, T.; Feagin, F.; and Pigman, W.Remineralization of Dental Enamel by Saliva In Vitro, Ann NY Acad Sci131: 751-757, 1965.
27.
Hemmens, E.S. ; Blayney, J.R.; Bradel, S.F.; and Harrison , R.W.The Microtic Flora of the Dental Plaque in Relation to the Beginning of Caries, J Dent Res25: 195-205, 1946.
28.
Becks, H.; Jensen, A.L.; and Millarr, C.B.: Rampant Dental Caries: Prevention and Prognosis. A Five Year Clinical Survey , JADA31:1189-1200, 1944 .
29.
Welander, E.: The Occurrence of Dental Caries in the Permanent Dentition, Uppsala : Almqvist and Wiksells, 1955, pp 94-117.
30.
Stephan, R.M. : Hydrogen Ion Concentration of the Dental Plaque , J Dent Res17: 251-256, 1938.
31.
Anderson, B.G. : Clinical Study of Arresting Dental Caries, J Dent Res17:443-452, 1938.
32.
Stephan, R.M. , and Hemmens, E.S.: Studies of Changes in pH Produced by Pure Cultures of Oral Micro-organisms, J Dent Res26:15-41, 1947.
33.
Miller, B.F. ; Muntz, J.A.; and Bradel, S.Decomposition of Carbohydrate Substrates by Dental Plaque Material. J Dent Res19:473-478, 1940.
34.
Volker, J.F. , and Pinkerton, D.M.: Acid Production in Saliva-Carbohydrate Mixtures, J Dent Res26:229-232, 1947.
35.
Erichsen, A. , and Schulerud, A.: Forskjellige brödsorters klebrighet under tyggningen, Odont T50:221, 1942, cited by Lanke, L.S.: Influence on Salivary Sugar of Certain Properties of Foodstuffs and Individual Oral Conditions , Acta Odont Scand15 (suppl 23):1957.
36.
Onisi, M., and Kondo, W.: Establishing an Environment for Growth of Aciduric Bacteria in the Oral Cavity , J Dent Res35:596-602, 1956.
37.
Gibbons, R.J. , and Socransky, S.S.: Intracellular Polysaccharide Storage by Organisms in Dental Plaques. Its Relation to Dental Caries and Microbial Ecology of the Oral Cavity, Arch Oral Biol7:73-80, 1962.
38.
Kleinberg, I. : Effect of Varying Sediment and Glucose Concentrations on the pH and Acid Production in Human Salivary Sediment Mixtures, Arch Oral Biol12:1457-1473, 1967.
39.
Singer, D.L., and Kleinberg, I.: Cell concentration and the pH of Suspended Plaque Mixtures In Vitro, abstracted, IADR Program and Abstracts of Papers, No. 494, 1970.
40.
Sandham, H.J. , and Kleinberg, I.: Utilization of Glucose and Lactic Acid by Salivary Sediment, Arch Oral Biol14:597-602, 1969.
41.
Hu, G., and Sandham, H.J.: Lactic Acid Utilization by Streptococci, abstracted, IADR Program and Abstracts of Papers, No. 173, 1969.
42.
Muntz, J.A. : Production of Acids from Glucose by Dental Plaque Material, J Biol Chem148:225-236, 1943.
43.
Sandham, H.J. , and Kleinberg, I.: Contribution of Lactic and Other Acids to the pH of a Salivary Sediment System during Glucose Catabolism, Arch Oral Biol, in press, 1970.
44.
Kleinberg, I.: Craw, D.; and Kay. M.: The Effect of a Salivary pH-Rise Factor on Salivary Sediment Metabolism, abstracted IADR Program and Abstracts of Papers, No. 90, 1968.
45.
Lilienthal, B.: An Analysis of the Buffer Systems in Saliva , J Dent Res34:516-530, 1955.
46.
Holt, L.E., JR.; La Mer, V.K.; and Chown, H.B.: Studies in Calcification. I. The Solubility Product of Secondary and Tertiary Calcium Phosphate under Various Conditions , J Biol Chem64:509-565, 1925.
47.
Jenkins, G.N. : The Effect of pH on the Fluoride Inhibition of Salivary Acid Production, Arch Oral Biol1:33-41, 1959.
48.
Kleinberg, I.: Regulation of the Acid-Base Metabolism of the Dento-Gingival Plaque and Its Relation to Dental Caries and Periodontal Disease, IntDent J, in press, 1970.
49.
Gilmour, M.N. , and Poole, A.E.: The Fermentative Capabilities of Dental Plaque, Caries Res1:247-260, 1967.
50.
Sandham, H.J. , and Kleinberg, I.: The Effect of Fluoride on the Interrelation Between Glucose Utilization, pH and Carbohydrate Storage in a Salivary Sediment System, Arch Oral Biol14:619-628, 1969.
51.
Craw, D., and Kleinberg, I.: Effect of Salivary Supernatant and Fluoride on the Metabolism of Glucose in a Salivary Sediment System, abstracted IADR Program Abstracts of Papers, No. 385, 1969.
52.
Kleinberg, I. ; Kay, M.; and Craw, D.: Saliva in the Regulation of the pH of Salivary Sediment During Urea Utilization, abstracted IADR Program and Abstracts of Papers, No. 382, 1969.
53.
Krasse, B., and Carlsson, J.: Various Types of Streptococci and Experimental Caries in Hamsters, Arch Oral Biol15:25-32, 1970.
54.
Eggers-Lura, H.: Untersuchungen über den aeroben und anaeroben Abbau der Kohlehydrate im Speichel, Deutsch Zahn Mund Kieferheilk21:97-111, 1954.
55.
Miller, W.D.: The Micro-Organisms of the Human Mouth, Philadelphia: S.S. White Dental Mfg Co., 1890.
56.
Korayem, M. , and Kleinberg, I.: Studies on the Effect of Glucose and Salivary Supernatant on the Uptake of Oxygen by the Mixed Microbial Flora in a Suspended Salivary Sediment System Using the Clark Oxygen Electrode, Arch Oral Biol, submitted for publication, 1970.
57.
Hartles, R.L. , and Wasdell, M.: The Metabolism of the Oral Flora. 6. Preliminary Observations on a Water-Soluble Factor in Saliva which Enhances the Respiratory and Glycolytic Activity of the Salivary Flora, Brit Dent J98:334-337, 1955.
