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Original Research

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Relationship between Severe Early Childhood Caries and Body Mass Index

  • Bhoomika W1
  • Ramakrishna Y1,*,
  • Munshi A K1

1Dept. of Pedodontics and Preventive Dentistry, K.D Dental College and Hospital, Mathura – Delhi N.H #2, Mathura - 281001, Uttar Pradesh. INDIA.

DOI: 10.17796/jcpd.37.3.u56q1554r67g4g31 Vol.37,Issue 3,May 2013 pp.235-242

Published: 01 May 2013

*Corresponding Author(s): Ramakrishna Y E-mail: drramakrishnay@indiatimes.com kittypedo@yahoo.com

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Abstract

This study was undertaken to evaluate the relationship between Severe Early Childhood Caries (S-ECC) and Body Mass Index (BMI) in the absence of any underlying medical condition for the school going (3 to 6 years old) children of Mathura city, India. Method: One hundred caries free children (50 boys and 50 girls) and one hundred children (50 boys and 50 girls) affected with S-ECC in the age range of 3-6 years without any contributing medical history were included in the study. Measurements of the weight (kg) and height (m) were done using a standard balanced beam scale and stadiometer. The BMI (kg/m2 ) was determined and the body weight status was evaluated using CDC based classification for each child. Independent t-test was used to evaluate whether the weight, height and BMI of S-ECC children is significantly different from caries free children. Result: Although the weight of the S-ECC children is more when compared to the normal children, the difference is not statistically significant. However, the mean BMI of S-ECC children is more when compared to the caries free children which was found to be statistically significant at p<0.05. The body weight status of the Normal and S-ECC affected children based on the CDC classification revealed that 48% have been classified in underweight category and 43% in normal weight category and very few children are found to be at risk of overweight and overweight. Conclusions: A positive correlation between the BMI and S-ECC was observed in this study. 51% of caries free children and 45% of S-ECC children were classified in underweight category based on CDC classification.

Keywords

Severe Early Childhood Caries, Body Mass Index, Body weight status, Underweight, Overweight

Cite and Share

Bhoomika W,Ramakrishna Y,Munshi A K. Relationship between Severe Early Childhood Caries and Body Mass Index. Journal of Clinical Pediatric Dentistry. 2013. 37(3);235-242.

URL:

https://www.jocpd.com/articles/10.17796/jcpd.37.3.u56q1554r67g4g31

References

1. Yee R, Sheiham A. The burden of restorative dental treatment for children in Third World Countries. Int Dent J, 52: 7-10, 2002.

2. Pits NB, Boyles J, Nugent ZJ, Thomas N, Pine CM. The dental caries experience of 5-year-old children in England and Wales (2003/4) and in Scotland (2002/3). Community Dent Health, 22: 46-56, 2006.

3. Shepherd MA, Nadanovsky P, Sheiham A. The prevalence and impact of dental pain in eight year old school children in Harrow, England. Br Dent J, 187: 38-41, 1999.

4. Ratnayake N, Ekanayake L. Prevalence and impact of oral pain in 8-year-old children in Sri Lanka. Int J Paediatr Dent, 15: 105-112, 2005.

5. American Academy of Pediatric Dentistry. Definition of Early Childhood Caries. Reference Manual, 31(6): 13, 2009/2010.

6. 47% of children in India are underweight: Unicef. Available at: http:// infochangeindia.org/health/books-reports/47-of-children-in-india-are-underweight-unicef.html. Accessed February 28, 2012.

7. Accardo PJ. Failure to Thrive in Infancy and Early Childhood: A Multidisciplinary Team Approach. Baltimore: University Park Press, p119, 1982.

8. Alverez JO, Lewis CA, Seman C, Caceda J, Montalvo J, Figueroa ML, Izquierdo J, Caravedo L, Navia MJ. Chronic malnutrition, dental caries, and tooth exfoliation in Peruvian children aged 3-9 years. Am J Clin Nutr, 48: 368-372, 1988.

9. Ayhan H, Suskan E, Yildirim S. The effect of nursing or rampant caries on height, body weight and head circumference. J Clin Pediatr Dent, 20(3): 209-212, 1996.

10. Baker JL, Losen LW, Sorensen TIA. Childhood body mass index and the risk of coronary heart disease in adulthood. N Engl J Med, 357: 2329-2337, 2007.

11. Ogden CL, Carroll MD, Curtin LR, McDowell MA, Tabak CJ, Flegal KM. Prevalence of overweight and obesity in the United States, 1999-2004. J Am Med Assoc, 295: 1549-1555, 2006.

12. Pietrobelli A, Kerns J, Faith M. Childhood obesity: Global trends, health complications and prevention needs. World J Pediatr, 1: 21-29, 2005.

13. US Department of Health and Human Services. National Center for Health Statistics. Clinical growth charts. BMI for age, ages 2-20 males and female. Public use date files. Available at: http://www.cdc.gov/nccdphp/dnp. Accessed April 25, 2011.

14. Peter S. Survey procedures. In: Essentials of preventive and community dentistry 2nd edition. Arya (Medi) Publishing House, Mumbai, India. 2004, p- 621.

15. Eleventh Five Year Plan 2007-12. Rapid Poverty Reduction. In: Agriculture, Rural Development, Industry, Services, and Physical Infrastructure. Volume III. Planning Commission Government of India. p.81-103.

16. Klein H, Palmer CE, Knutson JW. Studies on Dental Caries. Health Rep, 53: 751-765, 1938.

17. Pieper K. Epidemiologische Begleituntersuchung zur Gruppenprophylaxe 2004. Dtsch Arbeitsgemeinchaft fúr Jugendzahpflege e. V, Bonn, 2005.

18. Hollister MC, Weintraub JA. The association of oral status with systemic health, quality of life, and economic productivity. J Dent Educ, 57: 901–911, 1993.

19. Marcenes W, Steele JG, Sheiham A, Walls AWG. The relationship between dental status, food selection, nutrient intake, nutritional status, and body mass index in older people. Cad Saúde Pública, Rio de Janeiro, 19: 809–916, 2003.

20. Acs G, Lodolini G, Kaminsky S, Cisneros GJ. Effect of nursing caries on body weight in a pediatric population. Pediatr Dent, 14: 302-305, 1992.

21. Beltran-Aguilar ED, Barker LK, Canto MT, et al. Surveillance for dental caries, dental sealants, tooth retention, edentulism, and enamel fluorosis: United States, 1988 –1994 and 1999–2002. MMWR Surveill Summ, 54(3): 1–43, 2005.

22. Milgrom P, Mancl L, King B, Weinstein P, Wells N, Jeffcott E. An explanatory model of the dental care utilization of low income children. Med Care, 36: 554–566, 1998.

23. Nash DA, Nagel RJ. Confronting oral health disparities among American Indian/Alaska native children: the pediatric oral health therapist. Am J Public Health, 95: 1325–1329, 2005.

24. Gift HC, Drury TF, Nowjack-Raymer RE, Selwitz RH. The state of the nation’s oral health: mid-decade assessment of Healthy People 2000. J Public Health Dent, 56: 84–91, 1996.

25. Vargas CM, Crall JJ, Schneider DA. Sociodemographic distribution of pediatric dental caries: NHANES III, 1988–1994. J Am Dent Assoc, 129: 1229–1238, 1998.

26. Nicolau B, Marcenes W, Allison P, Sheiham A. The life course approach: explaining the association between height and dental caries in Brazilian adolescents. Community Dent Oral Epidemiol, 33: 93–98, 2005.

27. Nicolau B, Marcenes W, Bartley M, Sheiham A. A life course approach to assessing causes of dental caries experience: the relationship between biological, behavioral, socio-economic and psychological conditions and caries in adolescents. Caries Res, 37: 319–326, 2003.

28. Reeves AF, Rees JM, Schiff M, Hujoel P. Total body weight and waist circumference associated with chronic periodontitis among adolescents in the United States. Arch Pediatr Adolesc Med, 160: 894–899, 2006.

29. Stansfeld S. Social support and social cohesion. In: Social Determinants of Health. New York, NY: Oxford University Press: 155–174, 1999.

30. Alm A, Fåhraeus C, Wendt LK, Koch G, Gåre BA, Birkhed D. Body adiposity status in teenagers and snacking habits in early childhood in relation to approximal caries at 15 years of age. Int J Paediatr Dent, 18: 189-196, 2008.

31. Kantovitz KR, Pascon FM, Rontani RM, Gaviao MB. Obesity and dental caries – a systematic review. Oral Health Prev Dent, 4: 137–144, 2006.

32. Bimstein E, Katz J. Obesity in Children: A Challenge that Pediatric Dentistry Should not Ignore – Review of the Literature. J Clin Pediatr Dent, 34(2): 103–106, 2009.

33. Caufield PW, Li Y, Dasanayake A. Dental caries: an infectious andtransmitable disease. Compend Cont Educ Dent, 26: 10–16, 2005.

34. Selwitz RH, Ismail AI, Pitts NB. Dental caries. Lancet, 369: 51–59, 2007.

35. Nicklas TA, Baranowsky T, Cullen KW, Berenson G. Eating patterns, dietary quality, and obesity. J Am Coll Nutr, 81 (20): 599–608, 2005.

36. Marshall TA, Eichenberger-Gilmore JM, Broffitt, JBA, Warren JJ, Levy SM. Dental caries and childhood obesity: roles of diet and socioeconomic status. Community Dent Oral Epidemiol, 35: 449–458, 2007.

37. Chen W, Chen P, Chen SC, Shih WT, Hu HC. Lack of association between obesity and dental caries in three-year-old children. Zhonghua Min Guo Xiao Er Ke Yi Xue Hui Za Zhi, 39(2): 109-111, 1998.

38. Whelton H, Crowley E, Cronin M, Kelleher V, Perry I, O’ Mullane D. The Relationship between Body Mass Index (BMI) and Dental Caries. University College Cork: Ireland, 2004.

39. Hong L, Ahmed A, Mc Cunniff M, Overman P, Mathew M. Obesity and dental caries in children aged 2-6 years in the United States: National Health and Nutrition Examination Survey 199-2002. J Public Health Dent, 68: 227-233, 2008.

40. Alm A, Isaksson H, Fåhraeus C, Koch G, Gåre BA, Nilsson M, Birkhed D, Wendt LK. BMI status in Swedish children and young adults in relation to caries prevalence. Swed Dent J, 35: 1-8, 2011.

41. Pinto A, Kim S, Wadenya R, Rosenberg H. Is there an association between weight and dental caries among pediatric patients in an urban dental school? A correlation study. J Dent Educ, 71(11): 1435-1440, 2007.

42. Kopycka-Kedzierawski DT, Auinger P, Billings RJ, Weitzman M. Caries status and overweight in 2- to 18-year-old US children: findings from national survey. Community Dent Oral Epidemiol, 36: 157–167, 2008.

43. Dye BA, Shenkin JD, Ogden CL, Marshall TA, Levy SM, Kanellis MJ. The relationship between healthful eating practices and dental caries in children aged 2–5 years in the Unites States. 1988–1994. J Am Dent Assoc, 134: 55–65, 2004.

44. Tripathi S, Kiran K, Kamala BK. Relationship between obesity and dental caries in children - A preliminary study. J Int Oral Health, 2 (4): 65-72, 2010.

45. D’mello G, Chia L, Hamilton SD, Thomson WM, Drummon BK. Childhood obesity and dental caries among paediatric dental clinic attenders. Int J Paediatr Dent, 21: 217–222, 2011.

46. Sadeghi M, Lynch CD, Arsalan A. Is there a correlation between dental caries and body mass index-for-age among adolescents in Iran? Community Dent Health, 28(2): 174-7, 2011.

47. Miller J, Vaughan-Williams E, Furlong R, Harrison L. Dental caries and children´s weights. J Epidemiol Community Health, 36: 49-52, 1982.

48. Lim S, Sohn W, Burt BA, Sandretto AM, Kolker JL, Marshall TA, Ismail AI. Cariogenicity of soft drinks, milk and fruit juice in low income African-American children: a longitudinal study. J Am Dent Assoc, 139: 959–67, 2008.

49. Willershausen B, Haas G, Krummenauer F, Hohenfellner K. Relationship between high weight and caries frequency in German Elementary school children. Eur J Med Res, 9: 400-404, 2004.

50. Sharma A, Hegde AM. Relationship between body mass index, caries experience and dietary preferences in children. J Clin Pediatr Dent, 34(1): 49-52, 2009.

51. Palmer CA. Dental caries and obesity in children: Different Problems, Related Causes. Quintessence Int, 36(6): 457–461, 2005.

52. Honne T, Pentapati K, Kumar N, Acharya S. Relationship between obesity⁄overweight status, sugar consumption and dental caries among adolescents in South India. Int J Dent Hygiene, DOI: 10.1111/j.1601- 5037.2011.00534.x, 2011.

53. Trikaliotis A, Boka V, Kotsanos N, Karagiannis V, Hassapidou M. Short communication: Dmfs and BMI in preschool Greek children. An epidemiological study. Eur Arch Paediatr Dent, 12(3): 176-178, 2011.

54. Vázquez-Nava F, Vázquez-Rodríguez EM, Saldívar-González AH, Lin-Ochoa D, Martínez-Perales GM, Joffre-Velázquez VM. Association between obesity and dental caries in a group of preschool children in Mexico. J Public Health Dent, 70(2): 124–130, 2010.

55. Macek MD,Mitola DJ. Exploring the association between overweight and dental caries among US children. Pediatr Dent, 28: 375-380, 2006.

56. Clarke M, Locker D, Berall G, Pencharz P, Kenny DJ, Judd P. Malnourishment in a Population of Young Children With Severe Early Childhood Caries. Pediatr Dent, 28(3): 254-259, 2006.

57. Acs G, Shulman R, Ng MW, Chussid S. The effect of dental rehabilitation on the body weight of children with early childhood caries. Pediatr Dent, 21(2): 109-113, 1999.

58. Sheller B, Churchill SS, Williams BJ, Davidson BO. Body mass index of children with severe early childhood caries. Pediatr Dent, 31(3): 216-221, 2009.

59. Köksal E, Tekçiçek M, Yalçin SS, Tuğrul B, Yalçin S, Pekcan G. Association between anthropometric measurements and dental caries in Turkish school children. Cent Eur J Public Health, 19(3):147-151, 2011.

60. Means RT, Krantz SB. Progress in understanding the pathogenesis of the anemia of chronic desease. Blood, 80: 1639-1647, 1992.

61. Means RT. Recent developments in anemia of chronic disease. Curr Hematol Rep, 2: 116-121, 2003.

62. Vania A, Parisella V, Capasso F, Di Tanna GL, Vestri A, Ferrari M, Polimeni A. Early childhood caries underweight or overweight that is the question. Eur J Paediatr Dent, 12(4): 231-235, 2011.

63. Gaur S, Nayak R. Underweight in low socioeconomic status preschool children with severe early childhood caries. J Indian Soc Pedod Prev Dent, 29: 305-309, 2011.

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