Title
Author
DOI
Article Type
Special Issue
Volume
Issue
Prevalence and Associated Factors of Tooth Erosion in 8 -12-Year-Old Brazilian Schoolchildren
1Universidade Federal de Pelotas, Brazil
2Universidade Luterana do Brasil, Canoas, Brazil
3Universidade Federal de Santa, Maria, Brazil
4University of Adelaide, Australia
5Radboud University Nijmegen Medical Centre, Nijmegen, The Netherlands.
DOI: 10.17796/1053-4628-41.5.343 Vol.41,Issue 5,September 2017 pp.343-350
Published: 01 September 2017
*Corresponding Author(s): Flávio Fernando Demarco E-mail: ffdemarco@gmail.com
This study estimated the prevalence, distribution and associated factors of tooth erosion in Brazilian schoolchildren. Study design: A cross-sectional study was carried out in a representative sample of children aged 8-12-years-old from public and private schools. Six calibrated examiners assessed tooth erosion (O´Sullivan index) and other oral conditions (dental trauma, enamel defects, plaque, dental caries and dental crowding). Socio-demographic and behavioral data were collected using questionnaires. Interviews were conducted in children and in parents. Data were analyzed using Poisson regression model considering the cluster sample (Prevalence Ratio-PR; 95% Confidence Interval-CI). Results: A total of 1,210 children participated and were examined. Tooth erosion was observed in 25.1% of the children. Lesions were mostly observed in enamel and less than a half of the buccal surface was affected. The type of school and age were significant associated with higher prevalence of tooth erosion and dental crowding was associated with less probability of tooth erosion significantly. Acidic food or drinks were not associated with dental erosion. Conclusion: The prevalence of tooth erosion in the studied population was high. Erosive lesions were not severe, confined in enamel. Tooth erosion was associated with age, type of school, socioeconomic level and dental crowding.
tooth erosion, prevalence, child, adolescent, epidemiology
Mabel Miluska Suca Salas,Fabiana Vargas-Ferreira,Thiago Machado Ardenghi,Karen Glazer Peres,Marie-Charlotte DNJM Huysmans,Flávio Fernando Demarco. Prevalence and Associated Factors of Tooth Erosion in 8 -12-Year-Old Brazilian Schoolchildren. Journal of Clinical Pediatric Dentistry. 2017. 41(5);343-350.
1. El Aidi H, Bronkhorst EM, Huysmans MC and Truin GJ. Multifactorial analysis of factors associated with the incidence and progression of erosive tooth wear. Caries Res. 45: 303-12, 2011.
2. Dugmore CR and Rock WP. The progression of tooth erosion in a cohort of adolescents of mixed ethnicity. Int J Paediatr Dent. 13: 295-303, 2003.
3. Ganss C, Klimek J and Giese K. Dental erosion in children and adolescents—a cross-sectional and longitudinal investigation using study models. Community Dent Oral Epidemiol. 29: 264-71, 2001.
4. Tahmassebi JF, Duggal MS, Malik-Kotru G and Curzon ME. Soft drinks and dental health: a review of the current literature. J Dent. 34: 2-11, 2006.
5. Kazouilis S, Seow KW, Newman B, Ford D and Holcombe T. Common Dental Conditions Associated With Dental Erosion in Schoolchildren in Australia. Pediatric Dentistry. 29, 2007.
6. Bardsley PF, Taylor S and Milosevic A. Epidemiological studies of tooth wear and dental erosion in 14-year-old children in North West England. Part 1: The relationship with water fluoridation and social deprivation. Br Dent J. 197: 413-6; discussion 399, 2004.
7. Gurgel CV, Rios D, Buzalaf MA, et al. Dental erosion in a group of 12- and 16-year-old Brazilian schoolchildren. Pediatric dentistry. 33: 23-8, 2011.
8. Vargas-Ferreira F, Praetzel JR and Ardenghi TM. Prevalence of tooth erosion and associated factors in 11-14-year-old Brazilian schoolchildren. J Public Health Dent. 71: 6-12, 2011.
9. Correr GM, Alonso RC, Correa MA, Campos EA, Baratto-Filho F and Puppin-Rontani RM. Influence of diet and salivary characteristics on the prevalence of dental erosion among 12-year-old schoolchildren. Journal of dentistry for children (Chicago, Ill). 76: 181-7, 2009.
10. Al-Dlaigan YH, Shaw L and Smith A. Dental erosion in a group of British 14-year-old, school children. Part I: Prevalence and influence of differing socioeconomic backgrounds. Br Dent J. 190: 145-9, 2001.
11. Mangueira DF, Sampaio FC and Oliveira AF. Association between socioeconomic factors and dental erosion in Brazilian schoolchildren. J Public Health Dent. 69: 254-9, 2009.
12. Peres KG, Armenio MF, Peres MA, Traebert J and De Lacerda JT. Dental erosion in 12-year-old schoolchildren: a cross-sectional study in Southern Brazil. Int J Paediatr Dent. 15: 249-55, 2005.
13. Van Rijkom HM, Truin GJ, Frencken JE, et al. Prevalence, distribution and background variables of smooth-bordered tooth wear in teenagers in the hague, the Netherlands. Caries Res. 36: 147-54, 2002.
14. Wang P, Lin HC, Chen JH and Liang HY. The prevalence of dental erosion and associated risk factors in 12-13-year-old school children in Southern China. BMC Public Health. 10: 478, 2010.
15. El Aidi H, Bronkhorst EM, Huysmans MCDNJM and Truin GJ. Multifactorial analysis of factors associated with the incidence and progression of erosive tooth wear. Caries Research. 45: 303-12, 2011.
16. Salas MM, Nascimento GG, Vargas-Ferreira F, Tarquinio SB, Huysmans MC and Demarco FF. Diet influenced tooth erosion prevalence in children and adolescents: Results of a meta-analysis and meta-regression. J Dent. 43:865-875, 2015.
17. IBGE. Características da população e domicílios–Resultados do Universo– Notas metodológica. Rio de Janeiro,: IBGE(Brazilian Institute of Geographic and Statistics). 2010.
18. Goettems ML, Correa MB, Vargas-Ferreira F, et al. Methods and logistics of a multidisciplinary survey of schoolchildren from Pelotas, in the Southern Region of Brazil. Cad Saude Publica. 29: 867-78, 2013.
19. IBGE. Pesquisa Nacional de Saúde do Escolar. Rio de Janeiro: Brazilian Institute of Geographic and Statistics, 2009.
20. O’Sullivan EA. A new index for the measurement of erosion in children. :. Eur J Paediatr Dent 2: 69-74, 2000.
21. O’Brien M. Children’s Dental Health in the United Kingdom 1993. Londres: Her Majesty’s Stationery Office, 1994.
22. A review of the developmental defects of enamel index (DDE Index). Commission on Oral Health, Research & Epidemiology. Report of an FDI Working Group. Int Dent J. 42: 411-26, 1992.
23. Ainamo J and Bay I. Problems and proposals for recording gingivitis and plaque. Int Dent J. 25: 229-35, 1975.
24. World, Health and Organization. Oral health surveys–basic methods. 4th ed. Geneva1997.
25. Victora CG, Huttly SR, Fuchs SC and Olinto MT. The role of conceptual frameworks in epidemiological analysis: a hierarchical approach. Int J Epidemiol. 26: 224-7, 1997.
26. Larsen MJ, Poulsen S and Hansen I. Erosion of the teeth: prevalence and distribution in a group of Danish school children. European journal of paediatric dentistry : official journal of European Academy of Paediatric Dentistry. 6: 44-7, 2005.
27. Piovesan C, Padua MC, Ardenghi TM, Mendes FM and Bonini GC. Can type of school be used as an alternative indicator of socioeconomic status in dental caries studies? A cross-sectional study. BMC medical research methodology. 11: 37, 2011.
28. Dugmore CR and Rock WP. The prevalence of tooth erosion in 12-year-old children. Br Dent J. 196: 279-82; discussion 3, 2004.
29. Vartanian LR, Schwartz MB and Brownell KD. Effects of soft drink consumption on nutrition and health: a systematic review and meta-analysis. Am J Public Health. 97: 667-75, 2007.
30. McHugh ML. Interrater reliability: the kappa statistic. Biochemia medica. 22: 276-82, 2012.
31. Vargas-Ferreira F, Piovesan C, Praetzel JR, Mendes FM, Allison PJ and Ardenghi TM. Tooth erosion with low severity does not impact child oral health-related quality of life. Caries Res. 44: 531-9, 2010.
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 1.8 (2023) 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.
Top