Iranian Center for Endodontic Research
  • Login
  • Register

Iranian Endodontic Journal

  • Register
  • Home
  • About the journal
  • Issues
    • Current
    • Archives
  • For Authors/Reviewers
    • Submissions
    • Author Guidelines
    • Ethics Policy
    • Editorial & Peer Review Policy
    • Privacy Statement
    • Reviewers Information
  • Indexing/Abstracting
  • Editorial Team
  • Announcements
  • Contact Us
  • Congress Proceedings
Advanced Search
  1. Home
  2. Archives
  3. Vol. 21 No. 1 (2026)
  4. New title

Vol. 21 No. 1 (2026)

December 2025

Cyclic Fatigue Resistance of Three Glide-path File Systems in Double-curvature Simulated Canals: An in Vitro Study

  • Vicente Barreto Peña
  • Carmen Rosa Garcia-Rupaya

Iranian Endodontic Journal, Vol. 21 No. 1 (2026), 28 December 2025 , Page e14
https://doi.org/10.22037/iej.v21i1.46173 Published: 2026-04-29

  • View Article
  • Download
  • Cite
  • Statastics
  • Share

Abstract

Introduction: To compare the cyclic fatigue resistance of three rotary glide-path file systems (ProGlider, Px-One, and Pro-path) in simulated canals with double curvature. Materials and Methods: A total of 78 new files (n=26 per system) were evaluated and divided into six groups according to canal curvature (30° and 60°). Artificial stainless-steel canals (19 mm long, 8 mm curvature radius) were used. All files were operated at 300 rpm and 2.0 Ncm torque using continuous rotation at room temperature (22±2 °C). Cyclic fatigue resistance was assessed by recording the time to fracture. Shapiro-Wilk and Levene’s tests were performed to evaluate normality and homogeneity of variance, respectively. Data were analyzed using Welch’s ANOVA and Games-Howell post hoc test (P<0.05). Results: The Pro-path system showed significantly greater fatigue resistance than Px-One and ProGlider at both 30° and 60° canal curvatures (P<0.001). In 30° canals, Pro-path exhibited a mean fracture time of 76.42±12.50 min, compared to 57.41±11.77 min for ProGlider and 49.84±14.77 min for Px-One. In 60° canals, Pro-path again demonstrated superior performance (18.90±4.86 min), followed by ProGlider (5.71±1.23 min) and Px-One (4.70±1.20 min). Conclusions: Under these experimental conditions, Pro-path demonstrated significantly greater cyclic fatigue resistance than ProGlider and Px-One in double-curvature simulated canals. However, the absence of body temperature control and a static testing model limits clinical extrapolation. Further studies validating these findings under physiological conditions and dynamic kinematics are warranted.

Keywords:
  • Cyclic Fatigue; Endodontics; Reciprocating; Rotary Files
  • PDF

How to Cite

1.
Barreto Peña V, Garcia-Rupaya CR. Cyclic Fatigue Resistance of Three Glide-path File Systems in Double-curvature Simulated Canals: An in Vitro Study. Iran Endod J [Internet]. 2026 Apr. 29 [cited 2026 Jul. 8];21(1):e14. Available from: https://journals.sbmu.ac.ir/iej/article/view/46173
  • ACM
  • ACS
  • APA
  • ABNT
  • Chicago
  • Harvard
  • IEEE
  • MLA
  • Turabian
  • Vancouver
  • Endnote/Zotero/Mendeley (RIS)
  • BibTeX
  • Abstract Viewed: 53 times
  • PDF Downloaded: 57 times

Download Statastics

  • Linkedin
  • Twitter
  • Facebook
  • Google Plus
  • Telegram

Make a Submission

Make a Submission

Information

  • For Readers
  • For Authors
  • For Librarians

Developed By

Open Journal Systems

Indexing/Abstracting

This journal is indexed in:

  • PubMed
  • Europe PMC
  • Scopus
  • SCImago
  • MIAR
  • CINAHL
  • CAS (Chemical Abstracts)
  • Dimensions
  • DOAJ
  • EBSCO
  • FATCAT
  • Google Scholar
  • IMEMR (Index Medicus for the WHO Eastern Mediterranean Region)
  • Index Copernicus
  • ISC (Islamic World Science Citation Center)
  • Magiran
  • ROAD
  • SID (Scientific Information Database) 
  • SUDOC
  • UC Santa Barbara University
  • WIKIDATA
  • ZDB
    • This journal is Member of: COPE; ICMJ

Current Issue

  • Atom logo
  • RSS2 logo
  • RSS1 logo

Browse

  • Home
  • Archives
  • Submissions
  • About the Journal
  • Editorial Team
  • Contact

   Iranian Endodontic Journal is licensed under the Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International (CC BY-NC-SA 4.0).

Powered by OJSPlus