Free Radicals and Antioxidants in Stomatology
Authors:
V. Holeček 1; V. Mašek 2; H. Hecová 2; A. Zicha 2; J. Netolický 2
Authors‘ workplace:
Mulačova nemocnice, s. r. o., Plzeň
1; Stomatologická klinika LF UK a FN, Plzeň
přednosta doc. MUDr. A. Zicha, CSc.
2
Published in:
Česká stomatologie / Praktické zubní lékařství, ročník 108, 2008, 1, s. 20-23
Overview
Aggressive free radicals and ROS substances participate in many stamotological diseases. In the mouth these are formed or transported due to inflammation from white blood cells, in reperfusion after ischemia, cell necrosis, after bleeding in the presence of several metals (Cu, Fe, Hg etc.), due to UV light on mucous membrane, in high glucose level, due to inhalation of injuring, agents smoking, due to pain, from osteoclasts, after some metabolic pathways, due to tooth bleaching etc. The consequence is lipoperoxidation, peroxidation of proteins and DNA with possible mutations and AGE substances are formed. We must take free radicals into account in periodontitis, gingivitis and other inflammations, in carious dentin matrix, in tumors, tissue aging etc. The protection against free radicals is offered by antioxidants, better is their mixture. The most important ones include sodium ascorbate, selenium, glutathione, vitamin E, nicotinic acid and pyridoxamin.The determination of the total antioxidant capacity of saliva may be useful.
Key words:
stomatological diseases - free radicals - tissue damage - antioxidants
Sources
1. Booth, A. A., Khalifah, R. G., Hudson, B. G.: Thiamin pyrophosphate and pyridoxamine inhibit the formation of antigenic advanced glycation end-products: Comparison with aminoguanidine. Biochem. Biophys. Res. Comm., 220, 1996, s. 113-119.
2. Varma, S. D., Devamanoharan, P. S., Ali, A. H.: Formation of advanced glycation end [ AGE] products in diabetes: prevention by pyruvate and alpha-keto glutarate. Mol Cell Biochem., 17, 1 1997, 1-2, s. 23-28.
3. Vinson, J. A., Howard, T. B.: Inhibition of protein glycation and advanced glycation end products by ascorbic acid and other vitamins and nutrients. J. .Nutr. Biochem., 7, 1996, s. 659-663.
4. Young, W. G.: Tooth wear: diet analysis and advice. Int. Dent., J., 55, 2005, 2, s. 68-72.
5. Celec, P., Hodosy, J., Celecova, V., Vodrazka, J., Cervenka, T., Halcak, L., Bozek, P., Kopani, M. Kudela, M.: Salivary thiobarbituric acid reacting substances and malondialdehydr – their relationship to reported smoking and to parodontal status described by the papillary bleeding index. Dis. Markers, 21, 2005, 3, s. 133-137.
6. Battino, M., Ferreiro, M. S., Gallardo, I., Newman, H. N., Bullon, P.: The antioxidant capacity of saliva. J. Clin. Periodontol., 29, 2002, 3, s. 189-194.
7. Kleter, G. A., Damen, J. J., Buijs, M. J., Ten Cate, J. M.: Modification of amino acid residues in carious dentin matrix. J. Dent. Res., 77, 1998, 3, s. 488-495.
8. Fredriksson, M., Gustafsson, A., Asman, B., Bergstrom, K.: Hyper-reactive peripheral neutrophils in adult periodontitis:generation of chemiluminiscence and intracellular hydrogen peroxide after in vitro priming and FcgammaR-stimulation. J. Clin. Periodontol. /DENMARK/, 25, 1998, 5, s. 394-398.
9. Canakci, C. F., Tatar, A., Canakci, V., Cicek, Y., Oztas, S., Orbak, R.: New evidence of premature oxidative DNA damage: mitochondrial DNA deletion in gingival tissues of patients with periodontitis. Periodontol., 77, 2006, 11, s. 1894-1900.
10. Ozmeric, N., Ozcan, G., Haytac, C. M., Alaaddinoglu, E. E., Sargon, M. F., Senel, S.: Chitosan film enriched with an antioxidant agent, taurine, in fenestration defects. J. Biomed. Mater Res., 51,2000, 3, s. 500-503.
11. Sobaniec, H., Sobaniec-Lotowska, M. E.: Morphological examinations of hard tissue of periodontium and evaluation of selected processes of lipid peroxidation in blood serum of rats in the course of experimental periodontitis. Med. Sci. Monit., 6, 2000, 5, s. 875-881.
12. Akalin, F. A., Toklu, E., Renda, N.: Analysis of superoxide dismutase activity levels in gingiva and gingival crevicular fluid in patients with chronic periodontitis and periodontally healthy controls. J. Clin. Periodontol., 32, 2005, 3, s. 238-243.
13. Tulunoglu, O., Alacam, A., Bastug, M., Yavuzer, S.: Superoxide dismutase activity in healthy and inflamed pulp tissues of permanent teeth in children. J. Clin. Pediatr. Dent., 22, 1998, 4, s. 341-345.
14. Shapira, L., Borinski, R., Sela, M. N., Soskolne A.: Superoxide formation and chemiluminiscence of peripheral polymorphonuclear leukocytes in rapidly progressive periodontitis patients. J. Clin. Periodontol., 18, 1991, s. 44-48.
15. Petelin, M., Pavlica, Z., Ivanusa, T., Sentjure, M, Skaleric, U.: Local delivery of liposome-encapsulated superoxide dismutase and catalase suppress periodontal inflammation in beagles. J. Clin. Periodontol., 27, 2000, 12, s. 918-925.
16. Alacam, A., Tulunoglu, O., Oygur, T., Bilici, S.: Effects of topical Catalase application on dental pulp tissue: a histopathological evaluation. J. Dent., 28, 2000, 5, s. 333-339.
17. Kawamoto, K., Tsujimoto, Y.: Effects of the hydroxyl radical and hydrogen peroxide on tooth bleaching. J. Endod., 30, 2004, 1, s. 45-50.
18. Kobakhidze, G. D., Vadachkoriia, N. R.: Study of influence of endoopalescence on the solid tissue by means of raster microscope. Georgian Med. News, 134, 2006, s. 39-43.
19. Buttke, T. M., Trope, M.: Effect of catalase supplementation in storage media for avulsed teeth. Dent. Traumatol., 19, 2003, 2, s. 103-108.
20. Shapira, L., Schatzker, Y., Gedalia, I., Borinski, R., Sela, M. N.: Effect of amine and stannous fluoride on human neutrophil functions in vitro. J. Dent. Res. (US), 76, 1997, 7, s. 1381-1386.
21. Munoz, C. A., Kiger, R. D., Stephens, J. A., Kim, J., Wilson, A. C.: Effects of a nutritional supplement on periodontal status. Compend Contin Educ. Dent., 22, 2001, 5, s. 425-428.
22. Hays, G. L., Bullock, Q., Lazzari, E. P., Puente, E. S.: Salivary pH while dissolving vitamin C-containing tablets. Am. J. Dent., 5, 1992, 5, s. 269-271.
23. O´Sullivan, E. A., Curzon, M. E.: A comparison of acidic dietary factors in children with and without dental erosion. ASDC J. Dent. Child., 67, 2000, 3, s. 186-192.
24. Lingstrom, P., Fure, S., Dinitzen, B., Fritzne, C., Klefbom, C., Birkhed, D.: The release of vitamin C from chewing gum and its effects on supragingival calculus formation. Eur. J. Oral Sci., 113, 2005, 1, s. 20-27.
25. Clarke, D. E.: Clinical and microbiological effects of oral zinc ascorbate gel in cats. J. Vet. Dent., 18, 2001, 4, s. 177-183.
26. Vaananen, M. K., Markkanen, H. A., Tuovinen, V. J., Kullaa, A. M., Karinpaa, A. M., Luoma, H., Kumpusalo, E. A.: Dental carries and mutans streptococci in relation to plasma ascorbic acid. Scand. J. Dent. Res., 102, 1994, 2, s. 103-108.
27. Vongphan, N., Senawonge, P., Somsiri, W., Harnirattisai, C.: Effects of sodium ascorbate on microtensile bond strength of total-etching adhesive system to NaOCl treated dentine. J. Dent., 33, 2005, 8, s. 689-695.
28. Panzarini, S. R., Perri de Carvalho, A. C., Poi, W. R., Sonodfa, C. K.: Use of vitamin C in delayed tooth replatation. Braz. Dent. J., 16, 2005, 1, s. 17-22.
29. Bulut, H., Kaya, A. D., Turkun, M.: Tensile bond strength of brackets after antioxidant treatment on bleached teeth. Eur. J. Orthod., 27, 2005, 5, s. 466-471.
30. Seri, M. D., ´Alessandro, A., Seri, S.: The effect of cigarette smoking on vitamin C and vitamin E levels of gingival crevicular fluid. Boll. Coc. Ital. Biol. Sper., 75, 1999, 3-4, s. 21-25.
31. Parko, A.: Has the increase in selenium intake led to a decrease in caries among children and the young in Finland. Proc. Finn. Dent. Soc., 88, 1992, 1-2, s. 57-59.
32. Johansson, E.: Selenium and its protection against the effects of mercury and silver. J. Trace Elem. Electrolytes Health Dis., 5, 1991, 4, s. 273-274.
33. Alam, S. Q., Alam, B. S.: Effect of excess vitamin E on rat teeth. Calcif. Tissue Int., 33, 1981, 6, s. 619-622.
34. Ruiz, J. A., Guerrero, L., Arnau, J., Guardia, M. D., Esteve-Garcia, E.: Descriptive sensory analysis of meat from broilers fed diets containing vitamin E or beta-carotene as antioxidants and different supplemental fats. Poult Sci., 80, 2001, 7, s. 976-982.
35. Sarkar, S., Sett, P., Chowdhury, T., Ganguly, D. K.: Effect of black tea on teeth. J. Indian Soc. Pedod. Prev. Dent., 18, 2000, 4, s. 139-140.
36. Yeung, S. Y., Lan, W. H., Huang, C. S., Lin, C. P., Chan, C. P., Chang, M. C., Jeng, J. H.: Scavenging property of three cresol isomers against H2O2, hypochlorite, superoxide and hydroxyl radicals. Food Chem. Toxicol. 40, 2002, 10, s. 1403-1413.
37. Chen, C. C., Kanno, Z., Soma, K.: Occlusal forces promote periodontal healing of transplanted teeth with enhanced nitric oxide synthesis. J. Med. Dent. Sci., 52, 2005, 1, s. 59-64.
38. Carossa, S., Pera, P., Doglio, P., Lombardo, S., Cologrande, P., Brussino, L., Rolla, G., Bucca, C.: Oral nitric oxide during plaque deposition. Eur. J. Clin. Invest., 31, 2001, 10, s. 833-835.
Labels
Maxillofacial surgery Orthodontics Dental medicineArticle was published in
Czech Dental Journal
2008 Issue 1
Most read in this issue
- Temporomandibular Point and Its 2D and 3D Models
- Dental Treatment in Children under General Anaesthesia
- Oral Mucositis as a Side Effect of Myeloablative Chemotherapy in Hemato-oncological Patients
- Blockade of Nervus Alveolaris Inferior in 284 Patients with Semi-retained and Retained Lower Wisdom Teeth: Our Experience