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Original Research

Open Access

The Relationship of Prevotella intermedia, Prevotella nigrescens and Prevotella melaninogenica in the Supragingival Plaque of Children, Caries and Oral Malodor

  • Shoji Tanaka1,*,
  • Mikako Yoshida1
  • Yukio Murakami1
  • Takako Ogiwara1
  • Masao Shoji1
  • Satoko Kobayashi1
  • Sigeru Watanabe1
  • Mamoru Machino1
  • Seiichiro Fujisawa1

1Department of Diagnostic & Therapeutic Sciences, Meikai University School of Dentistry, Sakado, Saitama, Japan

DOI: 10.17796/jcpd.32.3.vp657177815618l1 Vol.32,Issue 3,May 2008 pp.195-200

Published: 01 May 2008

*Corresponding Author(s): Shoji Tanaka E-mail: stanaka @ dent.meikai. ac.jp

Abstract

Purpose: A relationship between the distribution of periodontal bacteria species and malodor in children has not been sufficiently investigated. The present study was undertaken to determine the presence of 3 periodontopathic bacteria (Prevotella spp. P. intermedia, P. nigrescens, P. melaninogenica) in the supragingival plaques of 3 to 16-year-old children with different oral health conditions and oral malodor. Methods: The number of decayed and filled primary teeth (df) and Decayed, Missing and Filled permanent teeth (DMF),Papillary Marginal and Attached gingivitis (PMA) index, Oral Hygiene Index (OHI), and oral malodor of each subject were determined prior to the collection of supragingival plaques. Three periodontopathic bacteria(P. intermedia, P. nigrescens, P. melaninogenica ) in supragingival plaques were detected by using an immunoslot blot assay with monoclonal antibodies specific for each microorganism. Findings: The frequencies of periodontopathic bacteria in children with and without caries were not significantly different from each other. Positivity for P. intermedia, but not for P. nigrescens or P. melaninogenica was correlated with oral malodor. Oral malodor was also correlated with the debris index, a component of OHI.

The group with the higher OHI showed a higher prevalence of periodontopathic bacteria. For the 3 periodontopathic bacteria in the subjects tested, plaques positive for any of them were not age related. However,the frequencies of all 3 periodontopathic bacteria were the highest in the 3-6-year olds. Conclusion: The supragingival plaques in children can harbor 3 species of periodontopathic bacteria, P. intermedia,P. nigrescens, and P. melaninogenica.

Keywords

Children, Periodontopathic bacteria, Supragingival plaque, Oral malodor

Cite and Share

Shoji Tanaka,Mikako Yoshida,Yukio Murakami,Takako Ogiwara,Masao Shoji,Satoko Kobayashi,Sigeru Watanabe,Mamoru Machino,Seiichiro Fujisawa. The Relationship of Prevotella intermedia, Prevotella nigrescens and Prevotella melaninogenica in the Supragingival Plaque of Children, Caries and Oral Malodor. Journal of Clinical Pediatric Dentistry. 2008. 32(3);195-200.

References

1. Slot J, Bragd L, Wikstrom M, et al. The occurrence of Actinobacillus Actinomycetemcomitans, Bactreoides gingivalis and Bacteroides inter-medius in destructive periodontal disease in adults. J Clin Periodontol, 13: 570–577, 1986.

2. Wennstrom JL, Dahlen G, Svensson J, et al. Actinobacillus actino-mycetem-comitans, Bacteroides gingivalis and Bacteroides inter-medius: predictors of attachment loss. Oral Microbiol Immunol, 2: 158–163, 1987.

3. Kornman KS, Loesche WJ. The subgingival microbial flora during pregnancy. J Periodont Res, 15: 111–122, 1980.

4. Kononen E. Pigmented Prevotella species in the periodontally healthy oral cavity. FEMS, 6: 201–206, 1993.

5. Frisken KW, Higgins T, Palmer JM. The incidence of periodontopathic micro-organisms in young children. Oral Microbiol Immunol, 5: 43–45, 1990.

6. Kononen E, Asikainen S, Saarela M, et al. The oral gram-negative anaerobic microflora in young children: longitudinal changes from edentulous to dentate mouth. Oral Microbiol Immunnol, 9: 136-141, 1994.

7. Fukushima H, Moroi H, Inoue J, et al.? Phenotypic characteristics and DNA relatedness in Prevotella intermedia and similar organisms. Oral Microbiol Immunol, 7: 60–64, 1992.

8. Matto J, Saarela M, von Troil-Linden B, et al. Distribution and genetic analysis of oral Prevotella intermedia and Prevotella nigrescens. Oral Microbiol Immunol, 11: 96–102, 1996.

9. Teanpaisan R, Douglas CWI, Eley AR, Walsh TF. Clonality of Porphy-romonas gingivalis, Prevotella intermedia and Prevotella nigrescens isolated from periodontally diseased and healthy sites. J Periodonto Res, 31: 423–432, 1996.

10. Hanazawa S, Tanaka S, Kin M, et al. Application of monoclonal anti-bodies to the detection of Black- pigmented Bacteroides spp. in sub-gingival plaques by immunoslot blot assay. J Clin Microbiol, 28: 2248–2252, 1990.

11. Tanaka S, Murakami Y, Ogiwara T, et al. The prevalence of Porphy-romonas gingivalis and Prevotella spp. in supra and subgingival plaques, and periodontal clinical parameters according to subject age. J Periodontol 73: 877–885, 2002.

12. Ximenez-Fyvie LA, Haffajee AD, Socransky SS. Comparison of the microbiota of supra-and subgingival plaque in health and periodontitis. J Clin Periodontol, 27: 648–657, 2000.

13. Riviere GR, ElIiot KS, Adams DF, et al. Relative proportions of pathogen-related oral spirochetes ( PROS) and Treponema denticola in supragingival and subgingival plaque from patients with periodontitis. J Periodontol, 63: 131–136, 1992.

14. Gmur R, Guggenheim B. Interdental supragingival plaque—A natural habit of Actinobacillus actinomycetemcomitans, Bacteroides forsythus, Campylobacter rectus and Prevotella nigrescens. J Dent Res, 73: 1421–1428, 1994.

15. Tanaka S, Murakami Y, Seto K, et al. The prevalence of Porphyromonas gingivalis, Prevotella intermedia and Actinobacillus actinomycetem-comitans in the supragingival plaque of children with and without caries. Pediatric Dentistry, 25: 143–148, 2003.

16. Ximenez-Fyvie LA, Haffajee AD, Sigmund S, Socransky SS. Micro-bial composition of supra-and subgingival plaque in subjects with peri-odontitis. J Clin Periodontol, 27: 722–732, 2000.

17. Umeda M, Miwa Z, Takeuchi Y, et al. The distribution of periodonto-pathic bacteria among Japanese children and their parents. J Periodont Res, 39: 398–404, 2004.

18. Schour I. and Massler M. Prevalence of gingivitis in young adults. J Dent Res, 27: 733–734, 1948.

19. Greene JC. and Vermillion JR. The oral hygiene index, A method for classifying oral hygiene status. J Am Dent Assoc, 61: 172–179, 1960.

20. Yosida M, Takamori K, Ono Y, et al. Study on Halitosis in children. Questionnaire and halitosis test. Jpn J Ped Dent, 39: 694–703, 2001.

21. Hanazawa S, Saitoh K, Ohmori Y, et al. Production of monoclonal anti-bodies that recognize specific and cross-reactive antigen of Bacteroides gingivalis. Infect Immun, 46: 285–287, 1984.

22. Tanner ACR, Milgrom PM, Kent Jr R, et al. The microbiota of young children from tooth and tounge samples. J Dent Res, 81: 53–57, 2002.

23. Tanaka S, Minami M, Murakami Y, et al. The detection of Porphy-romonas gingivalis, Prevotella intermedia and Actinobacillus actiono-mycetem-comitans in tooth, tongue and buccal mucosa plaques in chil-dren, using immunoslot blot assay (IBA). J Clin Ped Dent, 30: 251–256, 2006.

24. Kimura S, Ooshima T, Takiguchi M, et al. Periodontopathic bacterial infection in childhood. J Periodontol, 73: 20–26, 2002.

25. Amir E, Schimonov, R, Rosenberg, M. Halitosis in children. J Pediatr, 134: 338–343, 1999.

26. Faryavi-Gholami F, Minah GE, Turng BF. Oral malodor in children and volatile sulfur compond-producing bacteria in saliva: preliminary microbiological investigation. Pediatric Dent, 21: 320–324, 1999.

27. Yaegaki K, Sanada K. Volatile sulfur compounds in mouth air from clinically healthy subjects and patients with periodontal disease. J Peri-odont Res, 27: 233–238, 1992.

28. Figueiredo LC, Rosetti EP, Marcantonio Jr. E, et al. The relationship of oral malodor in patients with or without periodontal disease. J Peri-odontol, 73: 1338–1342, 2002.

29. Ratcliff PA and Johnson PW. The relationship between oral malodor, gingivitis, and periodontitis. A review. J Periodontol, 70: 485–489, 1999.

30. Tonzetich J, Ng SK. Reduction of malodor by oral cleansing proce-dures. Oral Surg Oral Med Oral Pathol, 42: 172–181, 1976.

31. Tonzetich, J. Oral maldor: an indicator of health status and oral clean-liness. Int Dent J, 28: 309–319, 1978.

32. Tonzetich J. and McBride BC. Characterization of volatile sulphur pro-duction by pathogenic and non-pathogenic strains of oral Bacteroides. Arch Oral Biol, 26: 963–969, 1981.

33. Bogdasarian RS. Halitosis. Otolaryngol Clin North Am, 19: 111–117, 1986.

34. Tonzetich J. Production and origin of oral malodor. A review of mech-anisms and methods of analysis. J Periodontol, 48: 13–20, 1977.


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