Journal of Dentistry
Volume 37, Issue 7 , Pages 522-526 , July 2009

The effect of casein and calcium containing paste on plaque pH following a subsequent carbohydrate challenge

Received 9 January 2009 ,Revised 16 March 2009 ,Accepted 17 March 2009.

References 

  1. Reynolds EC, Cain CJ, Webber FL, Black CL, Riley PF, Johnson IH, et al. Anticariogenicity of calcium phosphate complexes of tryptic casein phosphopeptides in the rat. Journal of Dental Research. 1995;74:1272–1279
  2. Harper DS, Osborn JC, Hefferren JJ, Clayton R. Cariostatic evaluation of cheeses with diverse physical and compositional characteristics. Caries Research. 1986;20:123–130
  3. Reynolds EC. Remineralization of enamel subsurface lesions by casein phosphopeptide-stabilized calcium phosphate solutions. Journal of Dental Research. 1997;76:1587–1595
  4. Beighton D, McIntosh HA, McDougall WA. Bacteriological studies of the effects of cow's milk on dental plaque and dental caries in rats. Journal of Applied Bacteriolology. 1979;47:255–262
  5. Petti S, Simonetti R, Simonetti DA. The effect of milk and sucrose consumption on caries in 6-to-11-year-old Italian school children. European Journal of Epidemiolology. 1997;13:659–664
  6. Petridou E, Athanassouli T, Panagopoulos H, Revinthi K. Sociodemographic and dietary factors in relation to dental health among Greek adolescents. Community Dentistry Oral Epidemiolology. 1996;24:307–311
  7. Papas AS, Joshi A, Belanger AJ, Kent RL, Palmer CA, DePaola PF. Dietary models for root caries. American Journal of Clinical Nutrition. 1995;61:417S–422S
  8. Moynihan PJ, Ferrier S, Jenkins GN. The cariostatic potential of cheese: cooked cheese-containing meals increase plaque calcium concentration. British Dental Journal. 1999;187:664–667
  9. Aimutis WR. Bioactive properties of milk proteins with particular focus on anticariogenesis. Journal of Nutrition. 2004;134:989S–995S
  10. Kashket S, DePaola DP. Cheese consumption and the development and progression of dental caries. Nutrition Review. 2002;60:97–103
  11. Krobicka A, Bowen WH, Pearson S, Young DA. The effects of cheese snacks on caries in desalivated rats. Journal of Dental Research. 1987;66:1116–1119
  12. Shen P, Cai F, Nowicki A, Vincent J, Reynolds EC. Remineralization of enamel subsurface lesions by sugar-free chewing gum containing casein phosphopeptide–amorphous calcium phosphate. Journal of Dental Research. 2001;80:2066–2070
  13. Schupbach P, Neeser JR, Golliard M, Rouvet M, Guggenheim B. Incorporation of caseinoglycomacropeptide and caseinophosphopeptide into the salivary pellicle inhibits adherence of mutans streptococci. Journal of Dental Research. 1996;75:1779–1788
  14. Rose RK. Effects of an anticariogenic casein phosphopeptide on calcium diffusion in streptococcal model dental plaques. Archives of Oral Biology. 2000;45:569–575
  15. Reynolds EC. Anticariogenic complexes of amorphous calcium phosphate stabilized by casein phosphopeptides: a review. Special Care Dentistry. 1998;18:8–16
  16. Harper DS, Osborn JC, Hefferren JJ, Muller TP. Dental cariogenic evaluation of foods using human plaque pH and an experimental rat-caries model. Archives of Oral Biology. 1985;30:455–460
  17. Lingstrom P, Imfeld T, Birkhed D. Comparison of three different methods for measurement of plaque-pH in humans after consumption of soft bread and potato chips. Journal of Dental Research. 1993;72:865–870
  18. Imfeld T. Cariogenicity tests. Advances in Dental Research. 1994;8:225–228
  19. Fejerskov O, Scheie AA, Manji F. The effect of sucrose on plaque pH in the primary and permanent dentition of caries-inactive and -active Kenyan children. Journal of Dental Research. 1992;71:25–31
  20. Liu CC, Bocchicchio DB, Overmyer PA, Neuman MR. A Palladium–palladium oxide miniature pH electrode. Science. 1980;207:188–189
  21. Jensen ME, Polansky PJ, Schachtele CF. Plaque sampling and telemetry for monitoring acid production on human buccal tooth surfaces. Archives of Oral Biology. 1982;27:21–31
  22. Curzon ME, Hefferren JJ. Modern methods for assessing the cariogenic and erosive potential of foods. British Dental Journal. 2001;191:41–46
  23. Toumba KJ, Duggal MS. Effect on plaque pH of fruit drinks with reduced carbohydrate content. British Dental Journal. 1999;186:626–629
  24. Firestone AR, Imfeld T, Schiffer S, Lutz F. Measurement of interdental plaque pH in humans with an indwelling glass pH electrode following a sucrose rinse: a long term retrospective study. Caries Research. 1987;21:555–558
  25. Schachtele CF, Jensen ME. Comparison of methods for monitoring changes in the pH of human dental plaque. Journal of Dental Research. 1982;61:1117–1125
  26. Sjogren K, Ruben J, Lingstrom P, Lundberg AB, Birkhed D. Fluoride and urea chewing gums in an intra-oral experimental caries model. Caries Research. 2002;36:64–69
  27. Tahmassebi JF, Duggal MS. Comparison of the plaque pH response to an acidogenic challenge in children and adults. Caries Research. 1996;30:342–346
  28. Reynolds EC, Riley PF. Protein dissimilation by human salivary-sediment bacteria. Journal of Dental Research. 1989;68:124–129
  29. Higham SM, Edgar WM. Effects of Parafilm and cheese chewing on human dental plaque pH and metabolism. Caries Research. 1989;23:42–48
  30. Kumar VL, Itthagarun A, King NM. The effect of casein phosphopeptide–amorphous calcium phosphate on remineralization of artificial caries-like lesions: an in vitro study. Australian Dental Journal. 2008;53:34–40

PII: S0300-5712(09)00065-7

doi: 10.1016/j.jdent.2009.03.010

Journal of Dentistry
Volume 37, Issue 7 , Pages 522-526 , July 2009

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