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Original Research

Open Access

Total Antioxidant Capacity of Saliva and its Relation with Early Childhood Caries and Rampant Caries

  • Amitha M. Hegde1,*,
  • Kavita Rai1
  • Vivek Padmanabhan1

1Department of Pedodontics and Preventive Children Dentistry, A.B. Shetty Memorial Institute of Dental Sciences

DOI: 10.17796/jcpd.33.3.c730518021m56077 Vol.33,Issue 3,May 2009 pp.231-234

Published: 01 May 2009

*Corresponding Author(s): Amitha M. Hegde E-mail: amipedo@yahoo.co.in

Abstract

Dental caries is an infectious and communicable disease and multiple factors influence the initiation and progression of the disease. Recently it has been claimed that oxidative stress may play an important role in the onset and the development of several inflammatory oral pathologies and dental caries may also be included. Saliva could constitute a first line of defense against free radical- mediated oxidative stress. This is the reason why antioxidant capacity of saliva has led to increasing interest and hence the need for this study.

The antioxidant capacity of saliva was investigated in 100 children who were divided into four groups. Two of which comprised the study and control groups of children with ECC (below 71months of age) and the other two groups comprised of the study and control groups of the children with rampant caries [(RC) (6-12yrs)]. Unstimulated saliva samples were collected from all the groups. Total antioxidant capacity of saliva was evaluated by spectrophotometric assay.

The results indicated that the total antioxidant capacity (TAC) of saliva increased in children with caries. TAC also increased with the age of the children.

Keywords

Dental caries; free radicals (FR); total antioxidant capacity (TAC)

Cite and Share

Amitha M. Hegde,Kavita Rai,Vivek Padmanabhan. Total Antioxidant Capacity of Saliva and its Relation with Early Childhood Caries and Rampant Caries. Journal of Clinical Pediatric Dentistry. 2009. 33(3);231-234.

References

1. Mc Donald RE, Avery DR, Dean JA. Dentistry for the Child and Ado-lescent. 8th ed. St.Louis: Mosby Publications; 2004.

2. Featherstone JDB. The science and practice of caries prevention. J Am Dent Assoc, 131: 887–899, 2000.

3. Halliwell B. Antioxidants: the basics-what they are and how to evaluate them. In: Antioxidants in disease mechanisms and therapy. Advances in pharmacology. San Diego: Academic Press, 38: 3–20, 1997.

4. Sies H, Tsunemitsu A, Matsumura T. Antioxidants in disease mecha-nisms and therapy. Stomatologiia, 73(1): 11–13, 1997.

5. John T. McDevitt. Saliva as the next best diagnostic tool. Journal of Biochem, 45(2): 23–25, 2006.

6. Oral health surveys: basic methods, 4th ed. Geneva, World Health Organization, 1997.

7 Niki E. a-Tocopherol. In: Handbook of antioxidants. Cadenas E, Packer L, editors. New York: Marcel Dekker, Inc., pp. 3–25.

8. Sreebny LM, Banoczy J, Baum BJ, Edgar WM, Epstein JB, Fox PC et al. Saliva Its role in health and disease. Internl Dent J, 42: 291–304, 1992.

9. Priedo, Prinda M, aguilar M. Spectrophotometric Quantitation of Antioxidant Capacity through the formation of a Pophomolybdenum Complex: Specific Application to the Determination of Vit E. Analytical Biochemistry, 269: 337–41, 1999.

10. Yi Sun. Free radicals, antioxidant enzymes, and carcinogenesis. Free Radical Biology & Medicine.1990; 8:583-599.W.A.Pryor. Free radicals in biology – Academic Press New York San Francisco London, 1976.

11. Pryor W. A. oxy radicals and related species: their formation, lifetimes and reactions. Annual Rev Physiol, 48: 657–667, 1986.

12. Tenovuo J. Salivary parameters of relevance for assessing caries activity in individuals and populations. Comm Dent Oral Epidem, 25: 82–86, 1997.

13. Pereslegina IA. The activity of antioxidant enzymes in the saliva of normal children. Laboratornoe Delo, 11: 20–23, 1989.

14. Battino M, Bullon P, Wilson M, and Newman H. Oxidative injury and inflammatory Periodontal Diseases: the challenge of anti- oxidants tofree radicals and reactive oxygen species. Critical Review Oral Biology & Medicine, 10: 458–76, 1999.

15. Terao J., Nagao A. Antioxidative effect of human saliva on lipid perox-idation. Agricultural Biological Chemistry, 55: 869–72, 1991.

16. Prior R.L, Cao G. In vivo total antioxidant capacity: comparison of dif-ferent analytical methods. Free Radical Biology & Medicine, 27: 1173–1181, 1999.

17. Pruitt K.M., Tenovuo J., Mansson- Rahemtulla B., Harrington P & Bal-done D.C. Is thiocyanate peroxidation at equilibrium in vivo? Bio-chemica et Biophysica Acta, 870: 385–391, 1986.

18. Tenovuo J., Lehtonen O.P.J., Aaltonen A.S., Vilja P., & Tuohimma P. Antimicrobial factors in whole saliva of human infants. Infection and Immunity, 51: 49–53, 1986.

19. Battino M, Ferreiro MS, Gallardo I, Newmann HN and Bullon P. The antioxidant capacity of saliva. J Clin Periodont, 29: 189–94, 2002.

20. Stutchell RN, Mandel ID. A comparative study of salivary lysozyme in caries resistant and caries susceptible adults. J Dent Res, 53: 119–125, 1974.

21. Bendich A. Physiological Role of Antioxidants in the Immune System. J Dairy Sci, 76(9): 2789–94, 1993.

22. Slots J., Taubman MA. Contemporary Microbiology and Immunology. St.Louis. Mosby Publications. 1992.

23. American Academy of Pediatric Dentistry. Reference Manual. Vol 29(7): 2007–2008.

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