Quantitative evaluation of apically extruded debris with Twisted File Adaptive instruments in straight root canals: reciprocation with different angles, adaptive motion and continuous rotation

Aim To evaluate the influence of movement kinematics when using Twisted File Adaptive instruments (SybronEndo, Orange, CA , USA ) ( TF Adaptive) on the amount of apically extruded debris. Methodology Forty‐eight extracted mandibular incisor teeth were selected. The teeth were randomly divided into four groups ( n   12), and the root canals were instrumented using the following movement kinematics: TF Adaptive motion, 90° clockwise ( CW ) to 30° counterclockwise ( CCW ) reciprocating motion, 150° CW to 30° CCW reciprocating motion or continuous rotation. TF Adaptive instruments were used for all groups. Debris extruded apically during instrumentation was collected in pre‐weighed Eppendorf tubes, and after drying, the mean weight of the debris was assessed with an electronic balance. The data were analysed statistically using a one‐way analysis of variance. Results The 90° CW to 30° CCW reciprocating motion produced the highest mean extrusion value, and this was significantly greater when compared with continuous rotation ( P  <   0.05). 150° CW to 30° CCW reciprocating, adaptive and continuous rotation motions produced similar amounts of debris extrusion ( P  >   0.05). Conclusion Movement kinematics affected the amount of apically extruded debris when using Twisted File Adaptive instruments.