Hostname: page-component-586b7cd67f-dsjbd Total loading time: 0 Render date: 2024-11-28T11:27:22.678Z Has data issue: false hasContentIssue false

Comprehensive dental evaluation of children with congenital or acquired heart disease

Published online by Cambridge University Press:  20 November 2012

Kenan Cantekin*
Affiliation:
Department of Paediatric Dentistry, Faculty of Dentistry, University of Erciyes, Kayseri, Turkey
Isin Cantekin
Affiliation:
Department of Internal Medicine, Faculty of Health Sciences, University of Meliksah, Kayseri, Turkey
Yasemin Torun
Affiliation:
Department of Pediatrics, Division of Pediatric Hematology, Kayseri Education and Research Hospital, Kayseri, Turkey
*
Correspondence to: K. Cantekin, Assistant Professor, Department of Paediatric Dentistry, Faculty of Dentistry, University of Erciyes, Kayseri 38390, Turkey. E-mail: [email protected]

Abstract

Objective

The aims of this case–control study were to (a) compare the caries experience and oral hygiene, and (b) quantify the persistence of a delay in the dental age in children with cardiac disease and a group of healthy children.

Methods and Materials

The study population comprised a group of 268 3- to 16-year-old children and adolescents with a cardiac disease and a group of 268 age- and sex-matched healthy children and adolescents. Specifically, the decayed, missed, and filled teeth indices, simplified oral hygiene index, and the dental ages of the two groups of children were calculated and then compared.

Results

Although the oral health of the children with either a congenital or an acquired heart disease was the same as that of the healthy children, there were significant differences in the decayed, missed, and filled teeth indices. Dental ages of the children with a congenital heart disease were significantly lower than those of healthy children. The findings showed that complex univentricular heart diseases had the highest negative impact on dental development (−1.1), followed by complex biventricular (−0.9), simple surgical (−0.5), and mild (−0.4) heart disease patients.

Conclusion

Once thorough knowledge of the child's cardiac status is gained, a definitive dental treatment plan for the child with a cardiac disease can be established.

Type
Original Articles
Copyright
Copyright © Cambridge University Press 2012 

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

1. Baspinar, O, Karaaslan, S, Oran, B, Baysal, T, Elmaci, AM, Yorulmaz, A. Prevalence and distribution of children with congenital heart diseases in the central Anatolian region, Turkey. Turk J Pediatr 2006; 48: 237243.Google Scholar
2. Welbury, RR. Paediatric Dentistry. Oxford, London, 2001.Google Scholar
3. Angus, C, Cameron, RPW. Handbook of Pediatric Dentistry. Mosby, London, 2003.Google Scholar
4. Rosenkranz, ER. Surgery for congenital heart disease. Curr Opin Cardiol 1993; 8: 262275.Google Scholar
5. Soames, J. Oral Pathology. Oxford, London, 1993.Google Scholar
6. Cantekin, K, Celikoglu, M, Karadas, M, Yildirim, H, Erdem, A. Effects of orthodontic treatment with fixed appliances on oral health status: a comprehensive study. J Dent Sci 2011; 6: 235238.Google Scholar
7. Cantekin, K, Gurbuz, T, Demirbuga, S, Demirci, T, Duruk, G. Dental caries and body mass index in a sample of 12-year-old eastern Turkish children. J Dent Sci 2012; 7: 7780.Google Scholar
8. Karadas, M, Cantekin, K, Celikoglu, M. Effects of orthodontic treatment with a fixed appliance on the caries experience of patients with high and low risk of caries. J Dent Sci 2011; 6: 195199.Google Scholar
9. Balmer, R, Bu'Lock, FA. The experiences with oral health and dental prevention of children with congenital heart disease. Cardiol Young 2003; 13: 439443.Google Scholar
10. Stecksen-Blicks, C, Rydberg, A, Nyman, L, Asplund, S, Svanberg, C. Dental caries experience in children with congenital heart disease: a case–control study. Int J Paediatr Dent 2004; 14: 94100.Google Scholar
11. Greene, JC. The Oral Hygiene Index – development and uses. J Periodontol 1967; 38 (Suppl): 625637.Google Scholar
12. Tamaki, Y, Nomura, Y, Inoue, K, Inosita, E, Tsurumoto, A, Hanada, N. Correlation study on oral health and electrocardiogram abnormalities. J Oral Sci 2004; 46: 241246.Google Scholar
13. Cawson, CS. Medical Problems in Dentistry. Butterworth-Heinemann Ltd, London, 2002.Google Scholar
14. Tasioula, V, Balmer, R, Parsons, J. Dental health and treatment in a group of children with congenital heart disease. Pediatr Dent 2008; 30: 323328.Google Scholar
15. Franco, E, Saunders, CP, Roberts, GJ, Suwanprasit, A. Dental disease, caries related microflora and salivary IgA of children with severe congenital cardiac disease: an epidemiological and oral microbial survey. Pediatr Dent 1996; 18: 228235.Google Scholar
16. World Health Organization. Oral Health Surveys: Basic Methods, 1987.Google Scholar
17. Demirjian, A, Goldstein, H, Tanner, JM. A new system of dental age assessment. Hum Biol 1973; 45: 211227.Google Scholar
18. Cantekin, K, Yilmaz, Y, Demirci, T, Celikoglu, M. Morphologic analysis of third-molar mineralization for eastern Turkish children and youth. J Forensic Sci 2012; 57: 531534.Google Scholar
19. Celikoglu, M, Cantekin, K, Ceylan, I. Dental age assessment: the applicability of Demirjian method in eastern Turkish children. J Forensic Sci 2011; 56 (Suppl 1): S220S222.Google Scholar
20. Miloglu, O, Celikoglu, M, Dane, A, Cantekin, K, Yilmaz, AB. Is the assessment of dental age by the Nolla method valid for eastern Turkish children? J Forensic Sci 2011; 56: 10251028.Google Scholar
21. Hallett, KB, Radford, DJ, Seow, WK. Oral health of children with congenital cardiac diseases: a controlled study. Pediatr Dent 1992; 14: 224230.Google Scholar
22. Pollard, MA, Curzon, ME. Dental health and salivary Streptococcus mutans levels in a group of children with heart defects. Int J Paediatr Dent 1992; 2: 8185.Google Scholar
23. Saunders, CP, Roberts, GJ. Dental attitudes, knowledge, and health practices of parents of children with congenital heart disease. Arch Dis Child 1997; 76: 539540.Google Scholar
24. Grahn, K, Wikstrom, S, Nyman, L, Rydberg, A, Stecksen-Blicks, C. Attitudes about dental care among parents whose children suffer from severe congenital heart disease: a case–control study. Int J Paediatr Dent 2006; 16: 231238.Google Scholar
25. da Fonseca, MA, Evans, M, Teske, D, Thikkurissy, S, Amini, H. The impact of oral health on the quality of life of young patients with congenital cardiac disease. Cardiol Young 2009; 19: 252256.Google Scholar
26. da Silva, DB, Souza, IP, Cunha, MC. Knowledge, attitudes and status of oral health in children at risk for infective endocarditis. Int J Paediatr Dent 2002; 12: 124131.Google Scholar
27. Hayes, PA, Fasules, J. Dental screening of pediatric cardiac surgical patients. ASDC J Dent Child 2001; 68: 255258; 228–259.Google Scholar
28. Berger, EN. Attitudes and preventive dental health behaviour in children with congenital cardiac disease. Aust Dent J 1978; 23: 8790.Google Scholar
29. Urquhart, AP, Blinkhorn, AS. The dental health of children with congenital cardiac disease. Scott Med J 1990; 35: 166168.Google Scholar
30. Roberts, GJ, Holzel, HS, Sury, MR, Simmons, NA, Gardner, P, Longhurst, P. Dental bacteremia in children. Pediatr Cardiol 1997; 18: 2427.Google Scholar
31. White, RI Jr, Jordan, CE, Fischer, KC, et al. Delayed skeletal growth and maturation in adolescent congenital heart disease. Invest Radiol 1971; 6: 326332.Google Scholar