Article Menu

Export Article

More by Authors Links

Article Data

  • Views 789
  • Dowloads 149

Original Research

Open Access

Comparison between Clinical Aspects and Salivary Microbial Profile of Children with and without Early Childhood Caries: A Preliminary Study

  • Neves AB1
  • Lobo LA**1
  • Pinto KC1
  • Pires ES1
  • Requejo MEP1
  • Maia LC1
  • Antonio AG1

1Universidade Federal do Rio de Janeiro, Rio de Janeiro, Brazil

DOI: 10.17796/1053-4628-39.3.209 Vol.39,Issue 3,May 2015 pp.209-214

Published: 01 May 2015

*Corresponding Author(s): Antonio AG E-mail: andreagantonio@yahoo.com.br

PDF (438.77 kB) View Full-text

Abstract

Purpose: To compare the clinical aspects and microbial profile of children with and without early childhood caries (ECC). Study design: 14 patients (7 without caries and 7 with ECC) were submitted to anamnesis, clinical exam and saliva collection for microbiological analyses. Counts of Streptococcus mutans, Lactobacillus spp. Candida spp., and total microorganisms were performed by culture methods. Microbial diversity was characterized by PCR-DGGE. Demographic/clinical data and salivary microbial counts were compared between groups. Results: Habits of hygiene and breastfeeding presented no association with ECC. Use of pacifiers was associated with absence of caries (p=0.035). Counts of total microorganisms and Candida spp. did not differ between the groups. The ECC group presented larger quantity of S. mutans (p=0.026) and Lactobacillus spp. (p=0.002). There was no correlation between microorganisms and breastfeeding and pacifier use. The dmf-t of ECC Group was 10.5±1.9 and the modified dmf-t was 11.3±3.6. The DGGE demonstrated difference in the pattern of bands between the groups. Conclusion: Pacifiers usage was associated with the absence of ECC and microorganism number was higher in the caries group. The PCR-DGGE revealed a characteristic microbial diversity in the ECC Group, being an excellent tool for observing the dynamics of the salivary microbial community in these patients.

Keywords

Early childhood caries, Preschool children, Salivary microbes, Polymerase Chain Reaction

Cite and Share

Neves AB,Lobo LA**,Pinto KC,Pires ES,Requejo MEP,Maia LC,Antonio AG. Comparison between Clinical Aspects and Salivary Microbial Profile of Children with and without Early Childhood Caries: A Preliminary Study. Journal of Clinical Pediatric Dentistry. 2015. 39(3);209-214.

URL:

https://www.jocpd.com/articles/10.17796/1053-4628-39.3.209

References

1. American Academy of Pediatric Dentistry (AAPD). Policy on early childhood caries (ECC): unique challenges and treatment options. Oral Health Polices. Reference Manual; 33:650-652, 2011b. Paula VA, Ferreira DC, Carmo FL, Rosado AS, Santos KR, Maia LC, Primo LG. Polymicrobial community in teeth associated with severe early-childhood caries. Eur Arch Paediatr Dent; 12:264-266. 2011.

2. Tinanoff N, Reisine S. Update on early childhood caries since the Surgeon General’s Report. Acad Pediatr; 9:396-403. 2009. Mota SP, Soares DN, Maia LC, Antonio AG. Effect of minimally invasive restorations on microorganism count in the oral cavity of patient with early childhood caries. Eur Arch Paediatr Dent; 14:121-127. 2013.

3. Tao Y, Zhou Y, Ouyang Y, Lin H. Dynamics of oral microbial community profiling during severe early childhood caries development monitored by PCR-DGGE. Arch Oral Biol; 58:1129-1138. 2013. 4. Klinke T, Urban M, Lück C, Hannig C, Kuhn M, Krämer N. Changes in Candida spp., Mutans Streptococci and Lactobacilli following treatment of early childhood caries: A 1-year follow-up. Caries Res; 48:24-31. 2014.

5. Gizani S, Papaioannou W, Haffajee AD, Kavvadia K, Quirynen M, Papagiannoulis L. Distribution of selected cariogenic bacteria in five different intra-oral habitats in young children. Int J Paediatr Dent; 19:193-200. 2009.

6. Tanner ACR, Mathney JMJ, Kent RL Jr, et al. Cultivable anaerobic microbiota of severe early childhood caries. J Clin Microbiol; 49:1464–1474. 2011. Palmer CA, Kent R Jr, Loo CY et al.Diet and caries-associated bacteria in severe early childhood caries. J Dent Res; 89:1224–1229. 2010.

7. Ge Y, Caufield PW, Fisch GS, Li Y. Streptococcus mutans and Streptococcus sanguinis colonization correlated with caries experience in children. Caries Res; 42:444-448. 2008.

8. Kneist S, Schmidt F, Callaway A, et al.Diversity of Lactobacillus species in deep carious lesions of primary molars. Eur Arch Paediatr Dent; 11:181–186. 2010.

9. Papaioannou W, Gizani S, Haffajee AD, Quirynen M, Mamai-Homata E, Papagiannoulis L. The microbiota on different oral surfaces in health children. Oral Microbiol Immunol; 24:183-189. 2009.

10. Zero DT.In situ Caries Models. Adv Dent Res; 9:214-30. 1995.

11. World Health Organization (WHO). Oral health surveys, basics methods.4th Ed.Geneve: Stylus Public, 1997.

12. Fejerskov O, Kidd E. Cárie dentária:A doença e seu tratamento clínico. 2ª ed. São Paulo: Editora Santos, 2005.

13. Li Y, Ge Y, Saxena D, Caufield PW. Genetic profiling of the oral microbiota associated with severe early-childhood caries. J Clin Microbiol; 45:81-87. 2007.

14. White V. Breastfeeding and the risk of early childhood caries. Evid Based Dent; 9:86-88. 2008. Ribeiro NM, Ribeiro MA. Breastfeeding and early childhood caries:a myth that survives. J Pediatr; 85:464-465. 2009.

15. Mohebbi SZ, Virtanen JI, Vahid-Golpayegani M, Vehkalahti MM. Feeding habits as determinants of early childhood caries in a population where prolonged breastfeeding is the norm. Community Dent Oral Epidemiol; 36:363-369. 2008.

16. Valaitis R, Hesch R, Passarelli C, Sheehan D, Sinton J. A systematic review of the relationship between breastfeeding and early childhood caries. Can J Public Health ; 91:411-417. 2000.

17. Danielsson Niemi L, Hernell O, Johansson I. Human milk compounds inhibiting adhesion of mutans streptococci to host ligand-coated hydroxyapatite in vitro. Caries Res ; 43:171-178. 2009.

18. Thylstrup A, Fejerskov, O. Cariologia Clínica. 3ª ed. São Paulo: Editora Santos, 421p, 2001.

19. Jiang W, Jiang Y, Li C, Liang J. Investigation of supragingival plaque microbiota in different caries status of Chinese preschool children by Denaturing Gradient Gel Electrophoresis. Microb Ecol; 61:342-352. 2011.

20. Klinke T, Kneist S, de Soet JJ, Kuhlisch E, Mauersberger S, Forster A, Klimm W. Acid production by oral strains of Candida albicans and lactobacilli. Caries Res; 43:83-91. 2009.

21. Syvitski RT, Tian XL, Sampara K, et al.Structure-activity analysis of quorum sensing signaling peptides from Streptococcus mutans. J Bacteriol; 189: 1441-1450. 2007.

22. Ling Z, Kong J, Jia P, Wei C, Wang Y, et al. Analysis of oral microbiota in children with dental caries by PCR-DGGE and barcoded pyrosequencing. Microb Ecol; 60:677–690. 2010.

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