Defect propagation in NiTi rotary instruments: a noncontact optical profilometry analysis

Aim To evaluate the presence and propagation of defects and their effects on surfaces of nickel–titanium (NiTi) instruments using noncontact, three‐dimensional optical profilometry, and to assess the accuracy of this method of investigation. Methodology The flute surface areas of instruments from two commercial instrumentation systems, namely Reciproc R25 ( n  = 5) and WaveOne Primary ( n  = 5), were assessed and compared before and after performing two instrumentation cycles in simulated root canals in clear resin blocks. All the analyses were conducted on areas measuring 211 × 211 μm, located 3 mm from the tips of the instruments. A quantitative analysis was conducted before and after the first and second instrumentation cycles, using the Sa (average roughness over the measurement field), Sq (root mean square roughness) and Sz (average height over the measurement field) amplitude parameters. All the data were submitted to statistical analysis at a 5% level of significance. Results There was a significant increase ( P  = 0.007) in wear in both groups, especially between baseline and the second instrumentation cycle, with significantly higher wear values being observed on WaveOne instruments (Sz median values = 33.68 and 2.89 μm, respectively, for WO and RP groups). A significant increase in surface roughness ( P  = 0.016 and P  = 0.008, respectively, for Sa and Sq) was observed in both groups from the first to the second instrumentation cycle, mostly in WaveOne specimens. Qualitative analysis revealed a greater number of defects on the flute topography of all the instruments after use. Conclusions More defects were identified in WaveOne Primary instruments compared to Reciproc R25, irrespective of the evaluation stage. The investigation method provided an accurate, repeatable and reproducible assessment of NiTi instruments at different time‐points.