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The analysis of research methods and results on resistance of nickel-titanium endodontic instruments to torsion load: the systematic review

https://doi.org/10.36377/1683-2981-2021-19-4-320-325

Полный текст:

Аннотация

Relevance. The objective of this study was to analyze current data concerning research methods and results on resistance of nickel-titanium endodontic instruments to torsion load in order to minimize complications of dental root canal treatment. The use of the nickel -titanium endodontic instruments is a special importance to ensure high-quality dental root canal treatment; it prevents the further contamination of the canals with microorganisms. However, these instruments can form a fracture under torsional load which leads to further complications.

Aim. The analysis of research methods and results on resistance of nickel-titanium endodontic instruments to torsion load for minimization complications.

Materials and methods. A series of publications in the electronic databases such as Google Scholar, Pub Med was analyzed in the course of a systematic review of the literature. The articles dealing with nickel-titanium endodontic instruments and torsion load that directly influences the quality of dental root canal treatment were included in the paper.

Results. 73 articles were viewed during the review. Having analyzed the literature for inclusion criteria, the total number of publications has become 51. There were 16 main methods which demonstrated the influence of torsion load on endodontic instruments. These methods were summarized in the Table 1.

Conclusions. As regards literature data, there are a various number of methods which converge to one conclusion: nickel-titanium instruments cannot fully resist torsion load. Fracture is caused approximately in 0,5-5% of cases.

Об авторах

D. S. Shirokova
“Peoples' Friendship University of Russia” (RUDN University)
Россия

Therapeutic Dentistry

Moscow



Z. S. Khabadze
“Peoples' Friendship University of Russia” (RUDN University)
Россия

Zurab Khabadze – Candidate of Medical Sciences, Associate Professor, Department of Therapeutic Dentistry

Moscow



D. V. Voskresenskaya
“Peoples' Friendship University of Russia” (RUDN University)
Россия

Student

Moscow



F. R. Ismailov
“Peoples' Friendship University of Russia” (RUDN University)
Россия

Postgraduate student, Department of Therapeutic Dentistry

Moscow



Z. М. Gasanova
“Peoples' Friendship University of Russia” (RUDN University)
Россия

Candidate of Medical Sciences, senior lecture, Department of Therapeutic Dentistry

Moscow



N. N. Fedotova
“Peoples' Friendship University of Russia” (RUDN University)
Россия

Candidate of Medical Sciences, senior lecture, Department of Therapeutic Dentistry

Moscow



Список литературы

1. Rzhanov E. A. Principles of creating endodontic instruments due to the anatomy of the dental root canal system. Ultra-flexible rotating endodontic instrument. Endodontia Today. 2011;9(1):25-27. (In Russ.)

2. Belyaeva T.S. Comprehensive clinical and laboratory comparative analysis of systems of rotary endodontic instruments made of nickeltitanium alloy. Dissertation for the degree of candidate of medical sciences. 616.314-089.23:615.47. (In Russ.)

3. Rzhanov, E. A., Kopiev D.A. Method for assessing the probability of nickel-titanium instrument breakage depending on the duration of its operation in a curved channel. Endodontia Today. 2011;2:66-72.

4. Manak T.N. Evaluation of the physical and mechanical properties of Ni-Ti endodontic instruments. Stomatolog. 2012;3(6):45-48.

5. Adamchik A.A., Laipanova F.M. Clinical and experimental study of rotating nickel-titanium endodontic instruments. Kuban Scientific Medical Bulletin. 2016;(4):7-11. (In Russ.)

6. Paderina T.O. Analysis of the structural features of Ni-Ti instruments after their fracture. Proceedings of the 93rd All-Russian Scientific and Practical Student Conference with International Participation. 29 –30 April 2020

7. Adamchik A.A. , Arutyunov A.V. , Tairov V.V. Comparison of Cyclic Fatigue of Endodontic Machine Nickel-Titanium Instruments (Experimental Clinical Study). Stomatologia dla vseh. 2016;2: 48-53.

8. Orekhova L. Yu., Vashneva V. Yu., Porkhun T. V., Zaitseva Yu. A. Comparative efficiency of mechanical treatment of root canals with modern ni-ti instruments. Endodontia Today. 2020; 18(2):10-15.

9. Vivan RR, Alcalde MP, Candeiro G, Gavini G, Caldeira CL, Duarte MAH. Torsional fatigue strength of reciprocating and rotary pathfinding instruments manufactured from different NiTi alloys. Braz Oral Res. 2019;33:97.

10. Oh S., Kum K.Y., Cho K., Lee S., You S., Go J. et al. Torsional and Bending Properties of V Taper 2H, ProTaper NEXT, NRT, and One Sha. Biomed Res Int. 2019.

11. Devyatnikova, V.G., Manak T.N. Experimental study of factors influencing the breakdown of a cyclic nature in rotary endodontic instruments. Endodontia Today. 2020;18(1):4-14.

12. Belyaeva, T. S., Rzhanov E. A. Research of the design parameters of the system of rotary endodontic instruments ProFile. Endodontia Today. 2012;10(4):9-17.

13. Manak, T. N. Experimental study of the physical and mechanical properties of nickel-titanium rotary endodontic instruments. International reviews: clinical practice and health. 2019;1(33):85-96.

14. Viana AC, Chaves Craveiro de Melo M, Guiomar de Azevedo Bahia M, Lopes Buono VT. Relationship between flexibility and physical, chemical, and geometric characteristics of rotary nickeltitanium instruments. Oral Surgery, Oral Medicine, Oral Pathology, Oral Radiology, and Endodontology. 2010;110(4):527-533.

15. Kopyev D.A. Treatment of teeth containing fragments. Dissertation for the degree of candidate of medical. 2012;134. ( In Russ.).

16. Cheung G.S. Instrument fracture: mechanisms, removal of fragments, and clinical outcomes. Endodontic Topics. 2007;16:1-26.

17. Bahia MG, Melo MC, Buono VT. Influence of simulated clinical use on the torsional behavior of nickel-titanium rotary endodontic instruments. Oral Surgery, Oral Medicine, Oral Pathology, Oral Radiology, and Endodontology. 2006;101(5):675-680.

18. Rzhanov E.A. A.V.Bolyachin Nickel-titanium alloy instruments used in endodontics. Clinical dentistry. 2004;2: 26-32.

19. Kim S., Endodontic Microsurgery, congress IFEA 2010, Greece.

20. Landau, L. D., Lifshits, E. M., Kosevich, A. M., & Pitaevskiĭ, L. P. Theory of elasticity. Oxfordshire: Pergamon Press. 1986.

21. Peters OA, Peters CI, Schönenberger K, Barbakow F. ProTaper rotary root canal preparation: effects of canal anatomy on final shape analysed by micro CT. International Endodontic Journal. 2003;36(2):86- 92.

22. Alapati SB, Brantley WA, Svec TA, Powers JM, Nusstein JM, Daehn GS. SEM observations of nickel-titanium rotary endodontic instruments that fractured during clinical Use. J Endod. 2005;31(1):40- 43.

23. Al-Fouzan KS. Incidence of rotary ProFile instrument fracture and the potential for bypassing in vivo. International Endodontic Journal. 2003;36(12):864-867.

24. Al-Hadlaq SM, Aljarbou FA, AlThumairy RI. Evaluation of cyclic flexural fatigue of M-wire nickel-titanium rotary instruments. J Endod. 2010;36(2):305-307.

25. Anderson ME, Price JW, Parashos P. Fracture resistance of electropolished rotary nickel-titanium endodontic instruments. J Endod. 2007;33(10):1212-1216.

26. Andreasen G.F., Hilleman T.B. An evaluation of 55 cobalt Nitinol wire for use in orthodontics. Journal of American Dental Association. 1971;6(82): 1373– 1375.

27. Jeremy M. Young, Krystyn J. Van Fliet. Predicting in vivo failure of pseudoelastic NiTi devices under low cycle, high amplitude fatigue. Willey Periodicals Inc. J. Biomed Mater Res. Part B: Appl Biomater. 2005:17-26.

28. Schafer E., Diez C., Hoppe W., Tepel J. Roentgenographic investigation of frequency and degree of canal curvatures in human permanent teeth. J. Endod. 2002;28 (3):211-216.

29. Emelyanov, D.V. Review of the causes of breakage of nickeltitanium endodontic instruments in the root canal. Conference dedicated to the 25th anniversary of ZAO SEZ VladMiVa, Belgorod. Publishing House "Belgorod". 2017;173-175.

30. Baek SH, Lee CJ, Versluis A, Kim BM, Lee W, Kim HC. Comparison of torsional stiffness of nickel-titanium rotary files with different geometric characteristics. J Endod. 2011;37 (9):1283.

31. Sousa-Neto MD, Silva-Sousa YC, Maz zi-Chaves JF, et al. Root canal preparation using micro-computed tomography analysis: a literature review. Braz Oral Res. 2018;32 (1):66.

32. Gazhva S.I., Pillipenko K.I., Gurenkova N.A., Zyzov I.M. Errors and complications of endodontic treatment of different groups of teeth. Ural Medical Journal. 2011;5 (83):17-21.

33. Rumyantsev V.A., Nekrasov A.V., Moiseev D.A., Zadorozhny D.V., Pankin P.I. Biofilm in endodontics, part II. methods of biofilm control in endodontic dental treatment (literature review). Endodontia Today. 2018;2:38-42.

34. Rabinovich I.M., Abakarova D.S., Snegirev M.V. Root canal irrigation – the key to endodontic success: an overview. Dentistry. 2011; 90(3):80-83.

35. Almedia D.O., Chaves S.C., Souza R.A., Soares F.F. Outcome of single – vs. multiplevisit endodontic therapy of nonvital teeth: a metaanalysis. J.Con-temp. Dent. Pract. 2017;18:330-336.

36. Thompson S.A. An overview of nickel-titanium alloys used in dentistry. International Endodontic Journal. 2000;33:297-310. doi: 10.1046/j.1365-2591.2000.00339.

37. Weine F.S. Kelly R.F. Lio P.J. The effect of preparation procedures on original canal shape and on apical foramen shape. J Endod. 1975;1: 255-262.

38. Blum J.Y. Machtou P. Micallef J.P. Location of contact areas on rotary ProFile instruments in relationship to the forces developed during mechanical preparation on extracted teeth. International Endodontic Journal. 1999;32:108-114.

39. Hilt B.R. Cunninghan C.J. Shen C. Richards N. Torsinal properties of stainless-steel and nickel-titanium files after multiple autoclave sterilizations. J Endod. 2000;26:76-80.

40. Bir R. Errors of endodontic treatment and their elimination. Endodontology. 2000: 240-265.

41. Bir R. Endodontology. Medpress. 2006: 363.

42. Bokaya V.G. Dspophoresis of calcium copper hydroxide in the treatment of teeth canals with fragments of epdoinstruments. Collection of scientific papers of the 4th Congress of the Dental Association of Russia. 2002: 3739.

43. Bolyachin A.B. Design features of active Ni-Ti instruments. 2003;1(3):53-56.

44. Borovskiy E.V. Yes or no to the resorcinol-formalin method (Albrecht method).Clinical Dentistry. 1997;3:16-18.

45. Borovsky P.V. Therapeutic dentistry. 2004: 260-261.

46. Stewart J.T., Lafkowitz S., Appelbaum K., Hartwell G. Distortion. Breakage of Liberator, EndoSequence, and ProFile systems in severely curved roots of molars. Journal of Endodontics. 2010;36 (4):729-731.

47. Oh S.R., Chang S.W., Lee Y., Gu Y., Son W.J., Lee W., Baek S.H., Bae K.S., Choi G.W., Lim S.M., Kum K.Y. A comparison of nickeltitanium rotary instruments manufactured using different methods and cross-sectional areas: ability to resist cyclic fatigue. Oral Surgery, Oral Medicine, Oral Pathology, Oral Radiology, and Endodontology. 2010;109 (4):622-628.

48. Plotino G., Grande N.M., Melo M.C., Bahia M.G., Testarelli L., Gambarini G. Cyclic fatigue of NiTi rotary instruments in a simulated apical abrupt curvature. International Endodontic Journal. 2010;43 (3):226-230.

49. Vahid A., Roohi N., Zayeri F. A comparative study of four rotary NiTi instruments in preserving canal curvature, preparation time and change of working length. Australian Endodontic Journal. 2009;35 (2):93-97.

50. Chow D.Y., Stover S.E., Bahcall J.K., Jaunberzins A., Toth J.M. In Vitro Comparison of the Rake Angles Between K3 and ProFile Endodontic File Systems. Journal of Endodontics. 2005;3(3):180-182.

51. Sonntag D. Schneidengeometrie und Effizienz voll-rotierender Nickel-Titan-Feilen. Endodontie 2003;12:229-241.

52. Sunday D. Cutting edge geometry and efficiency of fully rotating nickel-titanium files. Endodontics.2003;12:229-241. (In Germ.).


Для цитирования:


Shirokova D.S., Khabadze Z.S., Voskresenskaya D.V., Ismailov F.R., Gasanova Z.М., Fedotova N.N. The analysis of research methods and results on resistance of nickel-titanium endodontic instruments to torsion load: the systematic review. Эндодонтия Today. 2021;19(4):320-325. https://doi.org/10.36377/1683-2981-2021-19-4-320-325

For citation:


Shirokova D.S., Khabadze Z.S., Voskresenskaya D.V., Ismailov F.R., Gasanova Z.M., Fedotova N.N. The analysis of research methods and results on resistance of nickel-titanium endodontic instruments to torsion load: the systematic review. Endodontics Today. 2021;19(4):320-325. https://doi.org/10.36377/1683-2981-2021-19-4-320-325

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