Title
Author
DOI
Article Type
Special Issue
Volume
Issue
Relationship between Severe Early Childhood Caries, Mother´s Oral Health and Mutans Streptococci in a Low-Income Group: Changes from 1996 to 2007
1{name:'Ma. Esther Irigoyen Camacho',email:'meirigo@correo.xoc.uam.mx',org:'1',Corresponding:'1'},{name: 'Leonor Sánchez Pérez',org:'1'},{name: 'Álvaro García Pérez',org:'1'},{name: 'Marco Antonio Zepeda Zepeda',org:'1'}
*Corresponding Author(s): Ma. Esther Irigoyen Camacho E-mail: meirigo@correo.xoc.uam.mx
The relationship between dental caries and mutans streptococci (ms) in children and their mothers is a key factor in the prevention of early childhood caries. Changes in early childhood caries over time in Mexican children have not been well documented. Objective: to compare the dental caries indices and presence of ms in 3- to 5-year-old children and their mothers in two surveys, the first one carried out in 1996 and the second one in 2007. Study design: cross-sectional study. Results: The first survey included 102 mother-child dyads and the second 103. Dental caries index dmfs was 7.17 (± 10.9) and 4.58 (± 7.1) in the first and second survey, respectively (p<0.05). Ms levels were higher in 1996 than in 2007 (p<0.001). The prevalence of Severe Early Childhood Caries (SECC) was 42.2% and 34.95% in first and second surveys, respectively,(p>0.05). Children with SECC showed higher counts of ms than children without this condition. A high caries index in mothers was associated with higher caries experience in their children. Conclusion: the compassions of the surveys indicated a decline in dental caries indices over an 11-year period. High caries experience in the mother had a negative impact on the oral condition of the child.
early childhood caries, mother-child pairs, mutans streptococci, low income district, dental caries trends
Ma. Esther Irigoyen Camacho,Leonor Sánchez Pérez,Álvaro García Pérez,Marco Antonio Zepeda Zepeda. Relationship between Severe Early Childhood Caries, Mother´s Oral Health and Mutans Streptococci in a Low-Income Group: Changes from 1996 to 2007. Journal of Clinical Pediatric Dentistry. 2009. 33(3);241-246.
1. Newbrun E. Dental caries in the future: a global view. Proc Finn Dent Soc, 88: 155–161, 1992.
2. Pitts NB, Chestnutt IG, Evans D, White D, Chadwick B, Steele JG. The dentinal caries experience of children in the United Kingdom, 2003. Br Dent J, 200: 313–320, 2006.
3. Armfield JM, Spencer AJ. Quarter of a century of change: caries expe-rience in Australian children, 1977–2002. Aust Dent J, 53: 151–159, 2008.
4. Ferro R, Besostri A, Oliveri A, Stellini E. Mazzoleni S. Preschoolers’ dental caries experience and its trend over 20 years in a North-East Ital-ian Health District. Eur J Paediatr Dent, 8: 199–204, 2007.
5. Dye BA, Tan S, Smith V, Lewis BG, Barker LK, Thornton-Evans G, Eke PI, Beltán-Aguilar ED, Horowitz AM, Li CH. Trends in oral health status: United States, 1988–1994 and 1999–2004. Vital Health Stat 248: 1–92, 2007.
6. Zamudio-Gómez MA, Gaitán-Cepeda LA, Bravo-Pérez M, Gómez-Llanos H. Impacto a corto plazo de la cartilla de salud bucal sobre la prevalencia de caries en niños de Tijuana, Baja California, México.[Short-term impact of the oral health card on the prevalence of dental caries in children in Tijuana, Baja California, Mexico] Rev Odontol Mex, 9: 137–140, 2005.
7. Velázquez-Monroy O, Vera-Hermosillo H, Irigoyen-Camacho ME, Mejía-González A, Sánchez-Pérez L. Changes in the prevalence of den-tal caries in schoolchildren in three regions of Mexico: surveys from 1987–1988 and 1997–1998. Pan American Journal of Public Health, 13: 320–326, 2003.
8. Secretaría de Salud, Dirección General de Medicina Preventiva, Subdi-rección de Salud Bucal. Encuesta Nacional de Caries Dental. [Ministry of Health, Preventive Medicine Main Office, Department of Oral Health. National Survey of Dental Caries] México, D.F.: SSA, 1997–2001.
9. Norma Oficial Mexicana NOM-040-SSA1-1993. Bienes y Servicios. Sal yodatada. Sal fluorurada. Requisitos sanitarios. México D.F: Diario Oficial de la Federación; 23 de Marzo de 1995.
10. Irigoyen ME, Sánchez L, Zepeda MA. Prevalencia y severidad de caries en dientes primarios en alumnos de jardines de niños y escuelas pri-marias del Distrito Federal. [Prevalence and severity of tooth decay in primary teeth in kindergarten and elementary schoolchildren in the Federal District.] PO, 19: 23–30, 1997.
11. Skeie MS, Raadal M, Strand GV, Espelid I. The relationship between caries in the primary dentition at 5 years of age and permanent denti-tion at 10 years of age – a longitudinal study. Int J Paediatric Dent, 16: 152–160, 2006.
12. Li Y, Wang W. Predicting caries in permanent teeth from caries in pri-mary teeth: an eight-year cohort study. J Dent Res, 81: 561–566, 2002.
13. Tanzer JM, Livingston J, Thompson AM. The microbiology of primary dental caries in humans. J Dent Educ, 65: 1028–1037, 2001.
14. Del Rio Gomez I. Dental caries and mutans streptococci in selected groups of urban and native Indian schoolchildren in Mexico. Commu-nity Dent Oral Epidemiol, 19: 98–100, 1991.
15. Sánchez-Pérez L, Acosta-Gio E. Caries risk assessment from dental plaque and salivary Streptococcus mutans counts on two culture media. Archives Oral Biol, 46: 49–55, 2001.
16. Aguilera GLA, Padilla P, Aguilar R, Frausto S, Aceves MC, Enríquez EA. Niveles de Streptococcus mutans y prevalencia de caries dental en una población de escolares de la zona urbana de la ciudad de Zacate-cas. [Levels of Streptococcus mutans and prevalence of dental caries in a population of schoolchildren of the urban area of the city of Zacate-cas] Rev Asoc Dent Mex LXI: 85–91, 2004.
17. Klein MK, Flório F, Pereira AC, Hofling JF, Goncalves BR. Longitudi-nal study of transmission, diversity and stability of Streptococcus mutans and Streptococcus sobrinus genotypes in Brazilian nursery children. J Clin Microbiol, 42: 4620–4626, 2004.
18. Lindquist B, Emilson CG. Colonization of Streptococcus mutans and Streptococcus sobrinus genotypes and caries development in children to mothers harboring both species. Car Res, 38: 95–103, 2004.
19. Revuelta Pérez R, Diaz-Romero R. Niveles de infección de Streptococ-cus mutans en niños menores de dos años y sus madres en el Instituto Nacional de Perinatología. [Levels of Streptococcus mutans infection in children under two years of age and their mothers at the National Insti-tute of Perinatology] Perinatol Repord Hum, 20: 27–32, 2006.
20. Ersin NK, Eronat N, Cogulu D, Uzel A, Aksit S. Association of mater-nal-child characteristics as a factor in early childhood caries and sali-vary bacterial counts. J Dent Child (Chic), 73: 105–111, 2006.
21. Vargas CM, Ronzio CR. Disparities in early childhood caries. BMC Oral Health, 6 (Suppl 1): S3, 2006.
22. Instituto Nacional de Estadística Geografía e Informática. XII Censo General de Población y Vivienda 2000. [National Statistical Institute Geography and Informatics. XII General Census of Population and Housing]. Available at: http://www.inegi.gob.mx/est/contenidos.
23. World Health Organization. Oral Health Surveys: Basic Methods. 4th ed. Geneva Switzerland: WHO; 1997.
24. Ismail AI, Brodeur JM, Gagnon P, Payette M, Picard D, Hamalian T, Olivier M, Eastwood BJ. Prevalence of non-cavitated and cavitated car-ious lesions in a random sample of 7–9-year-old schoolchildren in Montreal, Quebec. Community Dent Oral Epidemiol, 20: 250–255, 1992.
25. Thitasomakul S, Thearmontree A, Piwat S, Chankanka O, Pithporn-chaiyakul W, Teanpaisan R, Madyusoh S. A longitudinal study of early childhood caries in 9- to 18-month-old Thai infants. Community Dent Oral Epidemiol, 34: 429–36, 2006.
26. AAPD: Definition of Early Childhood Caries (ECC) classification, consequences, and preventing strategies. Pediatr Dent, 25 (suppl): 31–32, 2004.
27. Segovia-Villanueva A, Estrella-Rodríguez R, Medina-Solís CE, Maupomé G. Dental caries experience and factors among preschoolers in southeastern Mexico: a brief communication. J Public Health Dent, 66: 88–91, 2006.
28. Velasco Moncada SI, Araiza Téllez MA, Valenzuela Espinoza E. Aso-ciación de los grupos sanguíneos y caries dental en preescolares.[Association of blood groups and dental caries in preschoolchildren] Rev Odontol Mex, 9: 59–64, 2005.
29. Maupomé- Carvantes G, Jaramillo-Lanchero RD, Andrade-Delgado LC, Juárez-Reyes PL, López-Pérez R, Sánchez-Navarro W, Sánchez-Pérez L, Vásquez-Obregón VH. . [Fluoride content of table salt in Mex-ico City]. Bol Oficina Sanit Panam, 119: 195–201, 1995.
30. Martinez-Mier EA, Soto-Rojas AE, Buckley CM, Stookey GK, Zero DT, Margineda J. Evaluación del contenido de flúor en sal de mesa flu-orada. [Evaluation of the fluoride content of table salt]. Salud Publica Mex, 46: 197–198, 2004.
31. Cook SL. Martinez-Mier EA, Dean JA, Weddell JA, Sanders BJ, Eggertsson H, Ofner S, Yoder K. Dental caries experience and associa-tion to risk indicators of remote rural populations. Int J Pediatr Dent, 18: 275–283, 2008.
32. Newbrun E. Cariology. Ed. The Williams & Wilkins Company, Balti-more; 16, 1978.
33. Loyola-Rodriguez JP, Martínez-Martínez RE, Flores-Ferreyra BI, Patiño-Marin N, Alpuche-Solis AG, Reyes-Macias JF. Distribution of Streptococcus mutans and Streptococcus sobrinus in saliva of Mexican preschool caries-free and caries-active children by microbial and molecular (PCR) assays. J Clin Pediatric Dent, 32: 121–126, 2008.
34. Beauchamp J, Caufield PW, Crall JJ, Donly K, Feigal R, Gooch B, Ismail A, Kohn W, Siegal M, Simonsen R. Evidence-based clinical rec-ommendations for the use of pit-and-fissure sealants. A report of the American Dental Association Council on Scientific Affairs. J Am Dent Assoc, 139: 257–268, 2008.
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