Geometric optimization for development of glide path preparation nickel-titanium rotary instrument

Jung Hong Ha, Chan Joo Lee, Sang Won Kwak, Rashid El Abed, Dongseok Ha, Hyeon Cheol Kim

Research output: Contribution to journalArticlepeer-review

14 Scopus citations

Abstract

Introduction This study was done to develop a glide path preparation nickel-titanium rotary instrument by size optimization procedures and evaluate the properties of the prototype. Methods G-1 and G-2 files were tested for cyclic fatigue, torsional resistance, and screw-in force. The cyclic fatigue resistance was compared by measuring the number of cycles to failure by using a 90° curved metal canal (n = 10). The torsional resistance was evaluated at 3 levels (2, 4, and 6 mm from the file tip) by measuring the ultimate torsional load (n = 10 each level). The screw-in forces (n = 5) were measured during sequential pecking in a simulated resin block to the end of foramen by using the customized shaping device (AEndoS). Meanwhile, finite element models of G-1 and G-2 files were made by reverse engineering, and their bending stiffness and torsional properties were calculated. By analyzing the results from mechanical tests and finite element analysis, a universal G (uG) file was designed to have intermediary mechanical properties, and then the prototype was fabricated by the manufacturer. Cyclic fatigue and torsional resistance tests and screw-in force with the uG were compared with G-1 and G-2 files. Results The prototype of uG file showed higher cyclic fatigue resistance than the G-2 file and intermediary torsional strength and screw-in forces between the G-1 and G-2 files. Conclusions The prototype production from a size optimization procedure produced appropriate mechanical properties for the purpose of development.

Original languageEnglish
Pages (from-to)916-919
Number of pages4
JournalJournal of Endodontics
Volume41
Issue number6
DOIs
StatePublished - 1 Jun 2015

Keywords

  • Cyclic fatigue
  • G file
  • glide path
  • nickel-titanium rotary file
  • screw-in effect
  • torsional resistance

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