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Comparative evaluation of changes in the ultrastructure of tooth enamel and dental implants using air-abrasive methods of surface decontamination in the process of carrying out professional oral hygiene

https://doi.org/10.33925/1683-3759-2019-24-2-133-139

Abstract

Relevance. To remove above-gum deposits and under-gum deposits air-abrasive methods are widely used. However, the mechanical properties of air-abrasive products are not known to ensure professional hygiene in the feld of exposure various tooth structures. In this regard more detailed studies on these issues are therefore needed. The aim of the present study was to undertake an comparative analysis of changes in the ultrastructure of the surface of tooth hard tissues when they are processed by powders consisting of sodium bicarbonate, calcium carbonate, glycine and trehalose.

Materials and methods. The production of vertical teeth grinding, thickness 1-2 mm, removed by orthopedic or orthodontic indications; the processing of these sections by air-abrasive powders in compliance with the Protocol of use of these funds from the manufacturers during the professional hygiene and the study of the samples by scanning electron microscopy (SEM) by a special technique.

Results. The answer to the task was the data of comparative analysis of damage to the enamel surface as a result of processing by various air-abrasive systems and the determination of the least traumatic method of conducting professional oral hygiene in relation to the enamel surface.

Conclusions. Processing of enamel by air-abrasive method using powder based on trehalose, glycine and calcium carbonate, observing the recommended conditions for the use of these systems, does not lead to a signifcant change in the enamel ultrastructure, damage or deformation, unlike powders based on calcium bicarbonate. Therefore these systems can be recommended during maintenance periodontal therapy for the prevention of periodontal diseases and dental caries for a long period of time. However, the use of powder based on calcium carbonate is not desirable in the area of dental implants and orthodontic structures such as braces, since the powder remains on these surfaces unchanged and can subsequently cause an exacerbation of inflammatory processes in soft tissues.

About the Authors

L. Yu. Orekhova
Pavlov First Saint Petersburg State University
Russian Federation

PhD, MD, Professor, chief of the department, President of RPA

Saint-Petersburg



E. S. Loboda
Pavlov First Saint Petersburg State University
Russian Federation

PhD, ass. of professor

Saint-Petersburg



D. M. Neizberg
Pavlov First Saint Petersburg State University
Russian Federation

PhD, ass. of professor

Saint-Petersburg



P. A. Boeva
Pavlov First Saint Petersburg State University
Russian Federation

Student of stomatology faculty

Saint-Petersburg



I. V. Berezkina
Pavlov First Saint Petersburg State University
Russian Federation

PhD, ass. of professor

Saint-Petersburg



References

1. L.Yu. Orekhova, E.S. Loboda, N.A. Yamanidze. Improving the methods of diagnosis and treatment of inflammatory periodontal diseases using various forms of ozone preparations by assessing the microcirculation of periodontal tissues. Parodontologiya. 2018;23:1:58-63 (In Russ.). https://doi:10.25636/PMP.1.2018.1.13

2. E.M. Kuzmina Dental morbidity of the Russian population. Мoscow: The Mediсine, 2009 (In Russ.).

3. A.K. Iordanishvili, L.N. Soldatova, V.S. Pereverzev, D.S. Tishkov The incidence of tooth decay in adolescents living in the city and in the countryside. Kursk scientific and practical bulletin "Man and his health". 2016;4:40-45 (In Russ.).

4. P. Axelsson, B. Nystrom, J. Lindhe. The long-term effect of a plaque control program on tooth mortality, caries and periodontal disease in adults. Results after 30 years of maintenance. Journal of Clinical Periodontology. 2004;31(9):749-757. https://doi:10.1111/j.1600-051X.2004.00563.x.

5. M.A. Cugini, A.D. Haffajee, C. Smith, R.L. Kent, S.S. Socransky. The effect of scaling and root planing on the clinical and microbiological parameters of periodontal diseases: 12-month results. Journal of Clinical Periodontology. 2000;27(1):30- 36. https://doi:10.1034/j.1600-051x.2000.027001030.x.

6. F. Ding, H.X. Meng, Q.Q. Li, Y.B. Zhao, X.H. Feng, L. Zhang. Effect of periodontal mechanical treatment on periodontal pathogenic bacteria in gingival crevicular fluid of chronic periodontitis patients. Beijing Da Xue Xue Bao. 2010;42:202–206.

7. J. Jiao, D. Shi, Z.Q. Cao, H.X. Meng, R.F. Lu, L. Zhang, Y. Song, J.R. Zhao. Effectiveness of non-surgical periodontal therapy in a large Chinese population with chronic periodontitis. Journal of Clinical Periodontology. 2017;44(1):42-50. https://doi:10.1111/jcpe.12637.

8. M. Aimetti. Non surgical periodontal treatment. Journal of esthetic dentistry. 2014;9:251-267.

9. G.F. Beloklitskaya, T.B. Volinskaya ABC Hand Scaling (manual for doctors). К.: Publisher «Kit», 2011.

10. J. Lindhe, S. Nyman Long-term maintenance of patients treated for advanced periodontal disease. Journal of Clinical Periodontology. 1984;11(8):504- 514. https://doi:10.1111/j.1600-051x.1984.tb00902.x.

11. G.J. Petersilka, M. Draenert, A. Mehl, R. Hickel, T.F. Flemmig. Safety and efficiency of novel sonic scaler tips in vitro. Journal of Clinical Periodontology. 2003b;30(6):551-555. https://doi:10.1034/j.1600-051x.2003.00300.x.

12. U. Zappa, B. Smith, C. Simona, H. Graf, D. Case, W. Kim. Root substance removal by scaling and root planning. Journal of Periodontology. 1991;62(12):750- 754. https://doi:10.1902/jop.1991.62.12.750.

13. Y. Zhao, L. He, H. Meng. Clinical observation of glycine powder air-polishing during periodontal maintenance phase. Zhonghua Kou Qiang Yi Xue Za Zhi. 2015;50:544-547.

14. C.M. Cobb, D.M. Daubert, K. Davis, J. Deming, T.F. Flemmig, A. Pattison, J.F. Roulet, R.V. Stambaugh. Consensus conference findings on supragingival and subgingival air polishing. Compendium of Continuing Education in Dentistry. 2017;38:e1–e4.

15. M.S. Agger, P. Horsted-Bindslev, O. Hovgaard. Abrasiveness of an air-powder polishing system on root surfaces in vitro. Quintessence Int 2011;32(5):407-411.

16. N.S. Oksas. Comparative evaluation of the use of air-abrasive products based on calcium carbonate and sodium bicarbonate in the complex treatment of inflammatory periodontal diseases. Ph. d. work. Saint-Petersburg; 2008:125.

17. D.M. Brown, R. Barnhart A scientific foundation for clinical use of air polishing systems. Part I. A review of the literature. Journal of Practical Hygiene 2015;3:36-40.

18. A. Boyde. Airpolishing effects on enamel, dentine, cements and bone. Brit Dent J 2014;156:287-291.


Review

For citations:


Orekhova LY, Loboda ES, Neizberg DM, Boeva PA, Berezkina IV. Comparative evaluation of changes in the ultrastructure of tooth enamel and dental implants using air-abrasive methods of surface decontamination in the process of carrying out professional oral hygiene. Parodontologiya. 2019;24(2):133-139. (In Russ.) https://doi.org/10.33925/1683-3759-2019-24-2-133-139

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