An in vitro Simulation of the Effects of Chewing Sugar-free and Sugar-containing Chewing Gums on pH Changes in Dental Plaque

Abstract

The objective of these studies was to simulate the effect of chewing sugar-free and sucrose-containing chewing gums on the return of the pH to neutrality after exposure to sucrose of plaque located on the buccal (BLM) and lingual (LLM) surfaces of the lower molar teeth. In study 1, a 0.5-mm-deep artificial plaque containing Streptococcus oralis cells was exposed to 10% sucrose for one min, and a 0.1-mm-thick film of sucrose-free artificial saliva was then flowed over the plaque surface at the unstimulated salivary film velocities previously found at the BLM and LLM sites. At the time of the pH minimum (pH 4-5), one of three conditions was simulated: (a) a no-gum-chewing control, or chewing for 20 min on either (b) a sugar-free gum or (c) a sucrose-containing gum. The recovery of the plaque pH to resting values was rapid during simulation of chewing a sugar-free gum (SFG), much slower with the no-gum control, and even slower with simulation of chewing a sucrose-containing gum (SCG). The pH recovery was slower with the BLM than the LLM plaque. In study 2, the BLM plaque was exposed to a 2% sucrose solution for 20 min under stimulated salivary conditions, to simulate the consumption of a meal, followed by one of conditions (a), (b), or (c) described above. The pH recovery with simulation of chewing a SCG was faster than with the no-gum control, but much slower than with the SFG simulation. In study 3, when both BLM and LLM plaques were exposed for 20 min to the sucrose levels in chewing-gum-stimulated saliva and then unstimulated conditions were simulated, the pH fall and recovery were similar to those found by others in vivo. From the results of these studies, it would be expected that when the plaque pH has fallen, after exposure to fermentable carbohydrate, it would return to neutrality more readily with the use of sugar-free rather than sucrose-containing gums.

Get full access to this article

View all access options for this article.

References

Collins Lmc , Dawes C. (1987). The surface area of the adult human mouth and thickness of the salivary film covering the teeth and oral mucosa. J Dent Res 66:1300-1302.

Dawes C. (1969). The effects of flow rate and duration of stimulation on the concentrations of protein and the main electrolytes in human parotid saliva. Arch Oral Biol 14:277-294.

Dawes C. (1989). An analysis of factors influencing diffusion from dental plaque into a moving film of saliva and the implications for caries . J Dent Res 68:1483-1488.

Dawes C. , Macpherson Lmd (1993). The distribution of saliva and sucrose around the mouth during the use of chewing gum and the implications for the site-specificity of caries and calculus deposition. J Dent Res 72:852-857.

Dawes C. , Watanabe S. , Biglow-Lecomte P. , Dibdin GH (1989). Estimation of the velocity of the salivary film at some different locations in the mouth. J Dent Res 68:1479-1482.

Edgar WM , Geddes Dam (1990). Chewing gum and dental health-a review. Br Dent J 168:173-177.

Geddes Dam , Edgar WM , Jenkins GN , Rugg-Gunn AJ (1977). Apples, salted peanuts and plaque pH. Br Dent J 142:317-319.

Glass RL (1981). Effects on dental caries incidence of frequent ingestion of small amounts of sugars and stannous EDTA in chewing gum. Caries Res 15:256-262.

Graf H. ( 1970). The glycolytic activity of plaque and its relation to hard tissue pathology-recent findings from intraoral pH telemetry research . Int Dent J 20:426-435.

10.

Isokangas P. , Alanen P. , Tiekso J. , Makinen KK (1988). Xylitol chewing gum in caries prevention: a field study in children. JAm Dent Assoc 117:315-320.

11.

Jensen ME (1986). Effects of chewing sorbitol gum and paraffin on human interproximal plaque pH. Caries Res 20:503-509.

12.

Jensen ME , Wefel JS (1989). Human plaque pH responses to meals and the effects of chewing gum. Br Dent J 167:204-208.

13.

Kandelman D. Gagnon G. (1990). A 24-month clinical study of the incidence and progression of dental caries in relation to consumption of chewing gum containing xylitol in school preventive programs. J Dent Res 69:1771-1775.

14.

Leach SA , Lee Gtr , Edgar WM (1989). Remineralization of artificial caries-like lesions in human enamel in situ by chewing sorbitol gum. J Dent Res 68:1064-1068.

15.

Lee IK , Schachtele CF (1992). Effect of gum chewing following food ingestion on the pH of interproximal dental plaque. Quint Int 23:455-459.

16.

Macpherson Lmd , Dawes C. (1991a). Urea concentration in minor mucous gland secretions and the effect of salivary film velocity on urea metabolism by Streptococcus uestibularis in an artificial plaque. J Periodont Res 26:395-401.

17.

Macpherson Lmd , Dawes C. (1991b). Effects of salivary film velocity on pH changes in an artificial plaque containing Streptococcus oralis, after exposure to sucrose. J Dent Res 70:1230-1234.

18.

Macpherson Lmd , Chen W. -Y, Dawes C. (1991). Effects of salivary bicarbonate content and film velocity on pH changes in an artificial plaque containing Streptococcus oralis, after exposure to sucrose. J Dent Res 70:1235-1238.

19.

Manning RH , Edgar WM , Agalamanyi EA (1992). Effects of chewing gums sweetened with sorbitol or a sorbitol/xylitol mixture on the remineralisation of human enamel lesions in situ. Caries Res 26:104-109.

20.

Park KK , Schemehorn BR , Bolton JW , Stookey GK (1990). The impact of chewing sugarless gum on the acidogenicity of fast-food meals. Am J Dent 3:231-235.

21.

Rugg-Gunn AJ , Edgar WM , Geddes Dam , Jenkins GN (1975). The effect of different meal patterns upon plaque pH in human subjects. Br Dent J 139:351-356.

22.

Rugg-Gunn AJ , Edgar WM , Jenkins GN (1978). The effect of eating some British snacks upon the pH of human dental plaque. Br Dent J 145:95-100.

23.

Shellis RP , Dibdin GH (1988). Analysis of the buffering systems in dental plaque . J Dent Res 67:438-446.

24.

Slack GL , Duckworth R. , Scheer B. , Brandt RS , Ailianou MC (1972). The effect of chewing gum on the incidence of dental diseases in Greek children. A 3-year study. Br Dent J 133:371-377.