Article Menu

Export Article

More by Authors Links

Article Data

  • Views 881
  • Dowloads 232

Original Research

Open Access

Effect of Probiotic Yogurt and Xylitol-Containing Chewing Gums on Salivary S Mutans Count

  • Elnaz Ghasemi1
  • Romina Mazaheri1,*,
  • Arezoo Tahmourespour1

1Dental faculty, Isfahan (Khorasgan) branch, Islamic azad university, Isfahan, Iran

DOI: 10.17796/1053-4628-41.4.257 Vol.41,Issue 4,July 2017 pp.257-263

Published: 01 July 2017

*Corresponding Author(s): Romina Mazaheri E-mail: Romina. mazaheri@gmail.com

PDF (464.21 kB) View Full-text

Abstract

Background and Aims: In addition to improving gastrointestinal health and intestinal microflora, probiotic bacteria have been recently suggested to decrease cariogenic agents in the oral cavity. The aim of this study was to investigate the effects of probiotic yogurt and xylitol-containing chewing gums on reducing salivary Streptococcus mutans levels. Study design: This randomized clinical trial recruited 50 female students with over 105 colony forming units S. mutans per milliliter of their saliva. The participants were randomly allocated to two equal groups to receive either probiotic yogurt containing Lactobacillus acidophilus ATCC 4356 andBifidobacteriumbifidum ATCC 29521 (200 g daily) or xylitol-containing chewing gums (two gums three times daily after each meal; total xylitol content: 5.58 g daily) for three weeks. At baseline and one day, two weeks, and four weeks after the interventions, saliva samples were cultured on mitis-salivarius-bacitracin agar and salivary S. mutans counts were determined. Data were analyzed with independent t-tests, analysis of variance, and Fisher's least significant difference test. Results: In both groups, S. mutans counts on the first day, second week, and fourth weeks after the intervention were significantly lower than baseline values (P < 0.05). The greatest level of reduction in both groups was observed in the second week after the intervention. Moreover, although the reduction was greater in probiotic yogurt consumers, the difference between the two groups was not statistically significant. Conclusion: Probiotic yogurt and xylitol-containing chewing gums seem to be as effective in reduction of salivary S. mutans levels. Their constant long-term consumption is thus recommended to prevent caries.

Keywords

Probiotics, yogurt, xylitol, chewing gum, saliva, Streptococcus mutans

Cite and Share

Elnaz Ghasemi,Romina Mazaheri,Arezoo Tahmourespour. Effect of Probiotic Yogurt and Xylitol-Containing Chewing Gums on Salivary S Mutans Count. Journal of Clinical Pediatric Dentistry. 2017. 41(4);257-263.

URL:

https://www.jocpd.com/articles/10.17796/1053-4628-41.4.257

References

1. Dean JA AD, McDonald RE. McDonald and Avery’s dentistry for the child and adolescent. 9th ed ed. Maryland: Mosby 2011.

2. Casamassimo PS FH, McTigue DJ, Nowak AJ. Pediatric dentistry infancy through adolescence. . 5th ed. St Louis: Elsevier 2013.

3. Harris NO G-GF, Nielson Nathe C. Primary preventive dentistry. 7th ed ed. New Jersey: Pearson Co; 2009.

4. Arunakul M, Thaweboon B, Thaweboon S, Asvanund Y, Charoen-chaikorn K. Efficacy of xylitol and fluoride mouthrinses on salivary Mutans streptococci. Asian Pac J Trop Biomed: 1(6):488-90.2011.

5. Thaweboon S, Thaweboon B, Soo-Ampon S. The effect of xylitol chewing gum on mutans streptococci in saliva and dental plaque. South-east Asian J Trop Med Public Health: 35(4):1024-7.2004.

6. Milgrom P, Ly KA, Roberts MC, Rothen M, Mueller G, Yamaguchi DK. Mutans streptococci dose response to xylitol chewing gum. J Dent Res: 85(2):177-81.2006.

7. Holgerson PL, Sjostrom I, Stecksen-Blicks C, Twetman S. Dental plaque formation and salivary mutans streptococci in schoolchildren after use of xylitol-containing chewing gum. Int J Paediatr Dent: 17(2):79-85.2007.

8. Fraga CP, Mayer MP, Rodrigues CR. Use of chewing gum containing 15% of xylitol and reduction in mutans streptococci salivary levels. Braz Oral Res: 24(2):142-6.2010.

9. Scheie AA FO, Danielsen B. The effects of xylitol-containing chewing gums on dental plaque and acidogenic potential. J Dent Res: 77(7):1547-52.1998.

10. Moeiny P, Jamei N , Mohamadi M, SHafizadeh N, Valaei N, Rahbar M , et al. Effect of a probiotic yogurt produced in Iran on the salivary counts of Streptococcus mutans.J Res Dent Sci:10: 73-82.2013.

11. Tahmourespour A. Contemporary Approach to Dental Caries. Shanghai: Intech; 2012.

12. Caglar E, Sandal N, Twetman S, Kavaloglu S, Ergeneli S, Selvi S.Effect of yogurt with Bifidobacterium DN-173 010 ON salivary mutans strep-tococci and lactobacilli in young adults.Acta Odontol Scand:63(6):317- 20. 2005.

13. Kavaloglu S, Germec D , Sandalli N , Isik Ozdemir F, Arun T , Twetman S, et al. Reduction of salivary mutans streptococci in orthodontic patients during daily consumption of yoghurt containing probiotic bacteria. European Journal of Orthodontics:31:407–411.2009.

14. Caglar E, Kavaloglu SC, Kuscu OO, Sandalli N, Holgerson PL, Twetman S. Effect of chewing gums containing xylitol or probiotic bacteria on salivary mutans streptococci and lactobacilli. Clin Oral Investig: 11(4):425-9.2007.

15. Twetman S, Stecksen-Blicks C. Probiotics and oral health effects in children. Int J Paediatr Dent18(1):3-10.2008.

16. Lesan S , Rahbar M, Valaei N, AbbasiVardoogh S , AbbasiVardoogh M .Effect of probiotic yoghurt on salivary Streptococcus mutansandLacto-bacillus.Journal of the Faculty of Medicine: 37(3): 151-157.2013.

17. Meurman JH. Probiotics: do they have a role in oral medicine and dentistry? Eur J Oral Sci:113(3):188-96.2005.

18. Michail S SF, Fuchs G, Issenman R. Clinical efficacy of probiotics: review of the evidence with focus on children. J Pediatr Gastroenterol Nutr: 43: 550–7.2006.

19. Huang JS BA, Lee JW, Diaz A, Davidson EJ. Efficacy of probiotic use in acute diarrhoea in children:a meta-analysis. Dig Dis Sci : 47:2625–34.2002.

20. Caglar E, Kuscu OO, Cildir SK, Kuvvetli SS, Sandalli N. A probiotic lozenge administered medical device and its effect on salivary mutans streptococci and lactobacilli. Int J Paediatr Dent:18(1):35-9.2008.

21. Chuang LC, Huang CS, Ou-Yang LW, Lin SY. Probiotic Lactobacillus paracasei effect on cariogenic bacterial flora. Clin Oral Investig: 15(4):471-6.2011.

22. Sudhir R, Praveen P, Anantharaj A, Venkataraghavan K. Assessment of the effect of probiotic curd consumption on salivary pH and strepto-coccus mutans counts. Niger Med J: 53(3):135-9.2012.

23. Montalto M, Vastola M, Marigo L, Covino M, Graziosetto R, Curigliano V, et al. Probiotic treatment increases salivary counts of lactobacilli: a double-blind, randomized, controlled study. Digestion: 69(1):53-6.2004.

24. Deepti A, Jeevarathan J, Muthu MS, Rathna Prabhu V, Chamundeswari. Effect of Fluoride Varnish on Streptococcus mutans Count in Saliva of Caries Free Children Using Dentocult SM Strip Mutans Test: A Randomized Controlled Triple Blind Study. Jaypee’s International Journal of Clinical Pediatric Dentistry.:1(1):1-9.2008.

25. Committee O. Guidelines on xylitol use in caries prevention. American Academy of Pediatric Dentistry: 35(6):171-4.2011.

26. Sreeja R. MCaMG. Enumeration of Salivary streptococci and lactoba-cilli children with differend caries experiences in a rural Indian popula-tion. Hindawi Publishing Corporation 2013:1-6.

27. Javeria U. AM, Hameed A. and Safia A. Salivary count of streptococcus mutans in caries prediction. Pakistan Oral & Dent Jr: 25(1):31-4.2005.

28. Simark-Mattson C EC, Hakansson EG, Jaccobson C, Roos K. Lactoba-cillus-mediated interference of mutans streptococci in caries-free vs. caries active subjects. Eur J Oral Sci: 115:308-14.2007.

29 Soderling E, Trahan L, Tammiala-Salonen T, Hakkinen L. Effects of xylitol, xylitol-sorbitol, and placebo chewing gums on the plaque of habitual xylitol consumers. Eur J Oral Sci: 105(2):170-7.1997.

30. Trahan L. Xylitol: a review of its action on mutans streptococci and dental plaque—its clinical significance. Int Dent J: 45(1 Suppl 1):77-92.1995.

31. Haresaku S, Hanioka T, Tsutsui A, Yamamoto M, Chou T, Gunjishima Y. Long-term effect of xylitol gum use on mutans streptococci in adults. Caries Res:41(3):198-203.2007.

32. Maehara H, Iwami Y, Mayanagi H, Takahashi N. Synergistic inhibition by combination of fluoride and xylitol on glycolysis by mutans strep-tococci and its biochemical mechanism. Caries Res: 39(6):521-8.2005.

33. Assev S, Stig S, Scheie AA. Cariogenic traits in xylitol-resistant and xylitol-sensitive mutans streptococci. Oral Microbiol Immunol: 17(2):95-9.2002.

34. Van Loveren C. Sugar alcohols: what is the evidence for caries-pre-ventive and caries-therapeutic effects? Caries Res: 38(3):286-93.2004.

35. Thorild I, Lindau B, Twetman S. Caries in 4-year-old children after maternal chewing of gums containing combinations of xylitol, sorbitol, chlorhexidine and fluoride. Eur Arch Paediatr Dent: 7(4):241-5.2006.

36. Soderling E, Trahan L, Tammiala-Salonen T, Hakkinen L. Effects of xylitol, xylitol-sorbitol, and placebo chewing gums on the plaque of habitual xylitol consumers. Eur J Oral Sci: 105(2):170-7.1997.

37. Aminabadi NA, Erfanparast L, Ebrahimi A, Oskouei SG. Effect of chlor-hexidine pretreatment on the stability of salivary lactobacilli probiotic in six- to twelve-year-old children: a randomized controlled trial. Caries Res: 45(2):148-54.2011.

38. Makinen KK. Sugar alcohols, caries incidence, and remineralization of caries lesions: a literature review. Int J Dent:2010:981072.2010.

39. Makinen KK, Soderling E, Isokangas P, Tenovuo J, Tiekso J. Oral biochemical status and depression of Streptococcus mutans in chil-dren during 24- to 36-month use of xylitol chewing gum. Caries Res: 23(4):261-7.1998.

40. Deshpande A, Jadad AR. The impact of polyol-containing chewing gums on dental caries: a systematic review of original random-ized controlled trials and observational studies. J Am Dent Assoc: 139(12):1602-14.2008.

41. Burt BA. The use of sorbitol- and xylitol-sweetened chewing gum in caries control. J Am Dent Assoc: 137(2):190-6.2006.

42. Zero DT. Are sugar substitutes also anticariogenic? J Am Dent Assoc: 139 Suppl:9S-10S.2008.

43. Marsh PD. Plaque as a biofilm: pharmacological principles of drug delivery and action in the sub- and supragingival environment. Oral Dis: 9 (Suppl 1):16-22.2003.

44. Holgerson PL SI, Twetman S. Decreased salivary uptake of [14C]-xy-litol after a four-week xylitol chewing gum regimen. Oral Health Prev Dent: 5(4):313-9.2007.

45. Wennerholm K, Arends J, Birkhed D, Ruben J, Emilson CG, Dijkman AG. Effect of xylitol and sorbitol in chewing-gums on mutans streptococci, plaque pH and mineral loss of enamel. Caries Res:28(1):48-54.1994.

46. Poureslami H, Pishbin L, Eslaminejad Z, Jahani Moqadam F, Rashid Farokhi M. The effects of a dairy probiotic product, espar, on salivary calcium and mutans streptococci. J Dent Res Dent Clin Dent Prospects: 7(3):147-51.2013.

47. Soderling EM, Marttinen AM, Haukioja AL. Probiotic lactobacilli interfere with Streptococcus mutans biofilm formation in vitro. Curr Microbiol: 62(2):618-22.2011.

48. Caglar E, Kuscu OO, Selvi Kuvvetli S, Kavaloglu Cildir S, Sandalli N, Twetman S. Short-term effect of ice-cream containing Bifidobacterium lactis Bb-12 on the number of salivary mutans streptococci and lactobacilli. Acta Odontol Scand: 66(3):154-8.2008.

49. Mortazavi S, Akhlaghi N. Salivary Streptococcus mutans and Lactobacilli levels following probiotic cheese consumption in adults: A double blind randomized clinical trial. J Res Med Sci: 17(1):57-66.2012.

50. Erickson KL, Hubbard NE. Probiotic immunomodulation in health and disease. J Nutr: 130(2S Suppl):403S-9S.2000.

51. Meurman JH AH, Salminen S Recovery of Lactobacillus strain GG (ATCC 53103) from saliva of healthy volunteers after consumption of yoghurt prepared with the bacterium. Micro Ecol Health Dis:7:295–8.1994.

52.Kreth J, Zhang Y, Herzberg MC. Streptococcal antagonism in oral biofilms: Streptococcus sanguinis and Streptococcus gordonii interference with Streptococcus mutans. J Bacteriol: 190(13):4632-40.2008.

53.Zahradnik RT, Magnusson I, Walker C, McDonell E, Hillman CH, Hillman JD. Preliminary assessment of safety and effectiveness in humans of ProBiora3, a probiotic mouthwash. J Appl Microbiol: 107(2):682-90.2009

54. Cannon M, Trent B, Vorachek A, Kramer S, Esterly R. Effectiveness of CRT at measuring the salivary level of bacteria in caries prone children with probiotic therapy. J Clin Pediatr Dent: 38(1):55-60.2013

55. Cabana MD SA, Chao C, Oliva-Hemker M. Probiotics in primary care paediatrics. Clin Pediatr:45:405–10.2006.

Abstracted / indexed in

Science Citation Index Expanded (SciSearch) Created as SCI in 1964, Science Citation Index Expanded now indexes over 9,500 of the world’s most impactful journals across 178 scientific disciplines. More than 53 million records and 1.18 billion cited references date back from 1900 to present.

Biological Abstracts Easily discover critical journal coverage of the life sciences with Biological Abstracts, produced by the Web of Science Group, with topics ranging from botany to microbiology to pharmacology. Including BIOSIS indexing and MeSH terms, specialized indexing in Biological Abstracts helps you to discover more accurate, context-sensitive results.

Google Scholar Google Scholar is a freely accessible web search engine that indexes the full text or metadata of scholarly literature across an array of publishing formats and disciplines.

JournalSeek Genamics JournalSeek is the largest completely categorized database of freely available journal information available on the internet. The database presently contains 39226 titles. Journal information includes the description (aims and scope), journal abbreviation, journal homepage link, subject category and ISSN.

Current Contents - Clinical Medicine Current Contents - Clinical Medicine provides easy access to complete tables of contents, abstracts, bibliographic information and all other significant items in recently published issues from over 1,000 leading journals in clinical medicine.

BIOSIS Previews BIOSIS Previews is an English-language, bibliographic database service, with abstracts and citation indexing. It is part of Clarivate Analytics Web of Science suite. BIOSIS Previews indexes data from 1926 to the present.

Journal Citation Reports/Science Edition Journal Citation Reports/Science Edition aims to evaluate a journal’s value from multiple perspectives including the journal impact factor, descriptive data about a journal’s open access content as well as contributing authors, and provide readers a transparent and publisher-neutral data & statistics information about the journal.

Scopus: CiteScore 2.0 (2022) Scopus is Elsevier's abstract and citation database launched in 2004. Scopus covers nearly 36,377 titles (22,794 active titles and 13,583 Inactive titles) from approximately 11,678 publishers, of which 34,346 are peer-reviewed journals in top-level subject fields: life sciences, social sciences, physical sciences and health sciences.

Submission Turnaround Time

Conferences

Top