In vitro comparison of the erosive potential of four different wines on human dental enamel

Download Article

Şeyma Alpkılı Dilara^a, Batu Şule^b

^aIstanbul University, Faculty of Dentistry, Department of Prosthodontics, Istanbul, Turkey
^bIstanbul University, Faculty of Dentistry, Department of Basic Medical Sciences, Istanbul, Turkey

Summary

Background/Aim: This study aimed to investigate the erosive potential of wines derived from Anatolia on human teeth in vitro. Material and Methods: In this study two red (Öküzgözü, Boğazkere) and two white (Sultaniye, Narince) wines, citric acid and distilled water were used to investigate erosive effects. The pH, titratable acidity, iron and calcium ion levels of the groups were measured. Each group included 10 specimen and they were exposed to 25 ml of wine sample for 5 seconds, artificial saliva for 10 seconds for 10 times. The initial and the final phosphate concentrations were measured by the UV spectrophotometer and the difference between the measurements was calculated. One sample was examined under a scanning electron microscope and the data were analyzed statistically using One-way ANOVA and Pearson correlation test. Results: Mineral loss and erosive lesion depth values were ranged from highest to the lowest Sultaniye, Boğazkere, Öküzgözü and Narince, respectively. Correlation between mineral loss and pH was statistically significant (p<0.01). However, there was no correlation between the iron and calcium ion level and mineral loss. Conclusions: All the investigated wines have pH values below the critical value for enamel dissolution while Sultaniye was significantly more erosive than the others. There is a negative correlation between pH and erosive potential of the wine. Within the limits of this in vitro study, it can be expected that a regular consumption of wines might cause dental erosion.

Keywords: Erosion; Dental Erosion; Titratable Acidity; Wine

Reference

Ablal, M.A., Kaur, J.S., Cooper, L., Jarad, F.D., Milošević, A., Higham, S.M., et al. (2009) The erosive potential of some alcopops using bovine enamel: An in vitro study. J Dent, 37:835-839

Brand, H.S., Tjoe, F.G.M., Veerman, E.M. (2009) The effects of saliva on the erosive potential of three different wines. Aust Dent J, 54(3): 228-232

Bueno, M.G., Marsicano, J.A., Sales-Peres, S.H.C. (2010) Preventive effect of iron gel with or without fluoride on bovine enamel erosion in vitro. Aust Dent J, 55(2): 177-180

Caneppele, T.M.F., Jeronymo, R.D.I., di Nicoló, R., de Araújo, M.A.M., Soares, L.E.S. (2012) In Vitro assessment of dentin erosion after immersion in acidic beverages: Surface profile analysis and energy-dispersive X-ray fluorescence spectrometry study. Braz Dent J, 23(4): 373-378

Chan, A.S., Tran, T.T.K., Hsu, Y.H., Liu, S.Y.S., Kroon, J. (2020) A systematic review of dietary acids and habits on dental erosion in adolescents. Int J Paediatr Dent, 30(6): 713-733

Chen, P.S., Toribara, T.Y., Warner, H. (1956) Microdetermination of Phosphorus. Anal Chem, 28(11): 1756-1758

Dos, S.E.J.L., Meira, I.A., de Sousa, E.T., Amaechi, B.T., Sampaio, F.C., de Oliveira, A.F.B. (2019) Erosive potential of soybased beverages on dental enamel. Acta Odontol Scand, 77:340-346

Ehlen, L.A., Marshall, T.A., Qian, F., Wefel, J.S., Warren, J.J. (2008) Acidic beverages increase the risk of in vitro tooth erosion. Nutr Res, 28(5): 299-303

George, R., Chell, A., Chen, B., Undery, R., Ahmed, H. (2014) Dental Erosion and Dentinal Sensitivity amongst Professional Wine Tasters in South East Queensland, Australia. ScientificWorldJournal, 2014: 1-5

Gray, A., Ferguson, M.M., Wall, J.G. (1998) Wine tasting and dental erosion: Case report. Aust Dent J, 43(1): 32-34

Hemingway, C.A., Parker, D.M., Addy, M., Barbour, M.E. (2006) Erosion of enamel by non-carbonated soft drinks with and without toothbrushing abrasion. Br Dent J, 201(7): 447-450

Kato, M.T., de Carvalho, S.S.H., Buzalaf, M.A.R. (2007) Effect of iron on acid demineralisation of bovine enamel blocks by a soft drink. Arch Oral Biol, 52(11): 1109-1111

Kwek, S.X.R., Mian, M., Hall, C., Xie, Z., Yong, R., Kaidonis, J., Townsend, G.C., Ranjitkar, S. (2015) Nanoscratch testing for the assessment of enamel demineralization under conditions simulating wine erosion. Aust Dent J, 60(1): 12-17

Lussi, A., Megert, B., Peter, S.R., Wang, X. (2012) Analysis of the erosive effect of different dietary substances and medications. Br J Nutr, 107(2): 252-262

Mok, T.B., Mcintyre, J., Hunt, D. (2001) Dental Erosion: In Vitro Model of Wine Assessor’s Erosion. Aust Dent J, 46(4): 263-268

Santhiya, B., Puranik, M.P., Sr, U. (2019) Risk factors, assessment and management of dental erosion in dental setting: A literature review. Int J Appl Dent Sci, 5: 28-36

Sen, I., Tokatli, F. (2014) Characterization and Classification of Turkish Wines Based on Elemental Composition. Am J Enol Vitic, 65(1): 134-142

von Fraunhofer, J.A., Rogers, M.M. (2004) Dissolution of dental enamel in soft drinks. Gen Dent, 52(4): 308-12

Wiegand, A., Attin, T. (2007) Occupational dental erosion from exposure to acids: A review. Occup Med (Lond), 57(3): 169-176

Willershausen, B., Callaway, A., Azrak, B., Kloß, C., Schulz-Dobrick, B. (2009) Prolonged in vitro exposure to white wines enhances the erosive damage on human permanent teeth compared with red wines. Nutr Res, 29(8): 558-567

Balkan Journal of Dental Medicine, 2022, vol. 26, br. 1, str. 41-46