Cyclic fatigue resistance of R-Pilot, HyFlex EDM and PathFile nickel-titanium glide path files in artificial canals with double (S-shaped) curvature

Abstract

Aim

To examine the cyclic fatigue resistances of R-Pilot, HyFlex EDM, and PathFile NiTi glide path files in S-shaped artificial canals.

Methodology

Twenty R-Pilot (12.5/.04), 20 HyFlex EDM (10/.05) and 20 PathFile (19/.02) single-file glide path files were included. Sixty files (n: 20/each) were subjected to static cyclic fatigue testing by using double-curved canals until fracture occurred (TF). The number of cycles to fracture (NCF) was calculated by multiplying the rpm value by the TF. The length of the fractured fragment (FL) was determined by a digital micro caliper. Six samples of fractured files (n: 2/each) were examined by SEM to determine the fracture mode. The NCF and the FL data were analyzed using one-way ANOVA, post hoc Tamhane and Kruskal-Wallis tests using SPPS 21 software. The significance level was set at 5%.

Results

In the double-curved canal, all the files fractured first in the apical curvature and then in the coronal curvature. The NCF values revealed that the R-Pilot had the greatest cyclic fatigue resistance, followed by the HyFlex EDM and PathFile in both the apical and coronal curvatures (p < 0.05).

Conclusions

R-Pilot NiTi glide path files, used in a reciprocation motion, had the highest cyclic fatigue resistance among the tested NiTi glide path files in an artificial S-shaped canal.

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