Cyclic fatigue of NiTi instruments used in complex curvatures with continuous or reciprocating rotation

Cyclic fatigue of NiTi instruments used in complex curvatures with continuous or reciprocating rotation

Aim: The aim of present study was to compare cyclic fatigue resistance of Twisted files (TF, Sybron Endo, Glendora, CA) instrument used with continuous rotation and the new Motion (TFAdaptive rotating reciprocation), to evaluate if the new reciprocating motion could affect the lifespan of tested ins...

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Main Authors: Luca Testarelli, Ermanno Putortì, Simone Staffoli, Federico Valenti Obino, Dario Di Nardo, Gabriele Miccoli, Gianluca Gambarini, Valerio Milana, Alessio Giansiracusa Rubini
Format: Article
Language:English
Published: Ariesdue 2014-11-01
Series:Giornale Italiano di Endodonzia
Subjects:
Nickel-titanium
Endodontic instruments
Cyclic fatigue
Continuous rotation
Reciprocation
Online Access:http://www.sciencedirect.com/science/article/pii/S1121417114000260
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spelling doaj-36f9458c77f24e5ca4315878ed0e34982020-11-25T03:20:05ZengAriesdueGiornale Italiano di Endodonzia1121-41712014-11-01282879010.1016/j.gien.2014.10.003Cyclic fatigue of NiTi instruments used in complex curvatures with continuous or reciprocating rotationLuca TestarelliErmanno PutortìSimone StaffoliFederico Valenti ObinoDario Di NardoGabriele MiccoliGianluca GambariniValerio MilanaAlessio Giansiracusa RubiniAim: The aim of present study was to compare cyclic fatigue resistance of Twisted files (TF, Sybron Endo, Glendora, CA) instrument used with continuous rotation and the new Motion (TFAdaptive rotating reciprocation), to evaluate if the new reciprocating motion could affect the lifespan of tested instruments. Methodology: 30 new TF instruments were submitted to cyclic fatigue tests. Group 1 instruments were tested using a TFA motion (TFA) while group 2 instruments were used in continuous rotation at 500 rpm (CR). The cyclic fatigue testing device used in the present study has been used for studies on cyclic fatigue resistance previously. The artificial canal was manufactured to provide the instrument with a very challenging trajectory 60° curvature, with a 2 mm radius. All instruments were rotated or reciprocated until fracture occurred. The time to fracture was recorded. All data were subjected to statistical evaluation with analysis of variance test. Results: TFA reciprocating motion showed a significant increase (p < 0.05) in the time to failure when compared to continuous rotation. Mean time to failure was 131 s (SD ±25.2) for group 1 (TFA), and was 68 s (SD ±14.8) for continuous rotation group (CR). Conclusions: In accordance with those findings, the results of the present study showed a significant increase of cyclic fatigue resistance of instruments used with the TFA motion. This can be explained by the alternance of engaging/disengaging movements, since the motion can be defined as a non-continuous rotation, while the traditional continuous rotation movement continuously engages and stresses the instruments.http://www.sciencedirect.com/science/article/pii/S1121417114000260Nickel-titaniumEndodontic instrumentsCyclic fatigueContinuous rotationReciprocation
collection DOAJ
language English
format Article
sources DOAJ
author Luca Testarelli
Ermanno Putortì
Simone Staffoli
Federico Valenti Obino
Dario Di Nardo
Gabriele Miccoli
Gianluca Gambarini
Valerio Milana
Alessio Giansiracusa Rubini
spellingShingle Luca Testarelli
Ermanno Putortì
Simone Staffoli
Federico Valenti Obino
Dario Di Nardo
Gabriele Miccoli
Gianluca Gambarini
Valerio Milana
Alessio Giansiracusa Rubini
Cyclic fatigue of NiTi instruments used in complex curvatures with continuous or reciprocating rotation
Giornale Italiano di Endodonzia
Nickel-titanium
Endodontic instruments
Cyclic fatigue
Continuous rotation
Reciprocation
author_facet Luca Testarelli
Ermanno Putortì
Simone Staffoli
Federico Valenti Obino
Dario Di Nardo
Gabriele Miccoli
Gianluca Gambarini
Valerio Milana
Alessio Giansiracusa Rubini
author_sort Luca Testarelli
title Cyclic fatigue of NiTi instruments used in complex curvatures with continuous or reciprocating rotation
title_short Cyclic fatigue of NiTi instruments used in complex curvatures with continuous or reciprocating rotation
title_full Cyclic fatigue of NiTi instruments used in complex curvatures with continuous or reciprocating rotation
title_fullStr Cyclic fatigue of NiTi instruments used in complex curvatures with continuous or reciprocating rotation
title_full_unstemmed Cyclic fatigue of NiTi instruments used in complex curvatures with continuous or reciprocating rotation
title_sort cyclic fatigue of niti instruments used in complex curvatures with continuous or reciprocating rotation
publisher Ariesdue
series Giornale Italiano di Endodonzia
issn 1121-4171
publishDate 2014-11-01
description Aim: The aim of present study was to compare cyclic fatigue resistance of Twisted files (TF, Sybron Endo, Glendora, CA) instrument used with continuous rotation and the new Motion (TFAdaptive rotating reciprocation), to evaluate if the new reciprocating motion could affect the lifespan of tested instruments. Methodology: 30 new TF instruments were submitted to cyclic fatigue tests. Group 1 instruments were tested using a TFA motion (TFA) while group 2 instruments were used in continuous rotation at 500 rpm (CR). The cyclic fatigue testing device used in the present study has been used for studies on cyclic fatigue resistance previously. The artificial canal was manufactured to provide the instrument with a very challenging trajectory 60° curvature, with a 2 mm radius. All instruments were rotated or reciprocated until fracture occurred. The time to fracture was recorded. All data were subjected to statistical evaluation with analysis of variance test. Results: TFA reciprocating motion showed a significant increase (p < 0.05) in the time to failure when compared to continuous rotation. Mean time to failure was 131 s (SD ±25.2) for group 1 (TFA), and was 68 s (SD ±14.8) for continuous rotation group (CR). Conclusions: In accordance with those findings, the results of the present study showed a significant increase of cyclic fatigue resistance of instruments used with the TFA motion. This can be explained by the alternance of engaging/disengaging movements, since the motion can be defined as a non-continuous rotation, while the traditional continuous rotation movement continuously engages and stresses the instruments.
topic Nickel-titanium
Endodontic instruments
Cyclic fatigue
Continuous rotation
Reciprocation
url http://www.sciencedirect.com/science/article/pii/S1121417114000260
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