Cyclic Fatigue Resistance of Nickel–Titanium Rotary Instruments after Simulated Clinical Use

Ubaed, Hana R.; Bakr, Diyar Khalid

doi:10.1155/2022/1716008

Cited by 5 publications

(4 citation statements)

References 25 publications

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“…The time to fracture of flat‐side instruments was lower compared with the reciprocating ones, which can be attributed to the kinematics itself (under the “rotary vs reciprocating” comparison) and the observed irregularities on their surfaces (under the “clockwise vs counter‐clockwise oscillatory asymmetric motion with equivalent angles of rotation” comparison). Whilst previous studies have shown that the flat‐side design (Gambarini et al, 2019; Ubaed & Bakr, 2022) and the clockwise oscillatory asymmetric motion can increase the time to fracture of rotary instruments (Martins et al, 2020), this effect was not observed in the Platinum V.EU. On the other hand, the AF F One Blue showed an extension in time to fracture, which ultimately resulted in a significantly lower cyclic fatigue strength for the Platinum V.EU.…”

Section: Discussionmentioning

confidence: 91%

“…Previous research has compared the first launched AF F One single‐file NiTi rotary system (size 25, 0.06 taper; Fanta Dental Material Co.) that is made of a proprietary AF‐R wire technology to various rotary and reciprocating systems. These studies showed that AF F One instruments had lower cyclic fatigue resistance than 2Shape instrument after clinical usage (Ubaed & Bakr, 2022), produced more debris but better cleaning ability than One Shape and OneCurve systems (Mogahed et al, 2021), had better shaping ability than a prototype instrument in simulated canals (Di Nardo et al, 2020), were less effective than certain reciprocating systems in removing calcium silicate‐based sealer (Madarati et al, 2023) and in eliminating Enterococcus faecalis biofilm from infected root canals (Hamed et al, 2022), but showed improved resistance to flexural fatigue compared with a prototype instrument (Gambarini et al, 2019). These preliminary findings indicate that using flat design instruments instead of other market‐available options may not offer the advantages claimed by manufacturers, and further research is necessary to assess their mechanical performance.…”

Section: Introductionmentioning

confidence: 99%

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Comparative analysis of reciprocating and flat‐side heat‐treated rotary single‐file systems: Design, metallurgical characteristics, and mechanical performance

et al. 2023

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Aim:To compare two flat-side single-file rotary instruments with three single-file reciprocating systems through a multimethod assessment.Methodology: A total of 290 new NiTi single-file rotary (AF F One Blue 25/0.06 and Platinum V.EU 25/0.06) and reciprocating (One Files Blue R25, Reciproc Blue R25, Reciproc R25) instruments were selected, carefully examined for any major deformations, and evaluated regarding their macroscopic and microscopic design, nickel and titanium elements ratio, phase transformation temperatures, and mechanical performance (time/rotation to fracture, maximum torque, angle of rotation, microhardness, maximum bending, and buckling strengths). One-way anova post hoc Tukey, T-test, and nonparametric Mood's median tests were used for statistical comparisons (α = 5%).Results: Tested instruments had identical blade counts and near-identical helical angles of approximately 24° (rotary instruments) and 151° (reciprocating instruments). The flat-side analysis revealed a few inconsistencies, such as discontinuity segments, different orientations, and gaps in the homogeneity of the bluish colour.Microscopically, flat-side instruments exhibited blade discontinuity and an incomplete S-shaped cross-section. The surface finish was smoother for One Files Blue and more irregular for both rotary instruments. There were distinct phase transformation temperatures amongst all instruments. All heat-treated instruments were in R-phase arrangement, and Reciproc was in R-phase plus austenite at test temperature (20°C). Compared with the reciprocating instruments, both flat-side instruments exhibited lower results in the cyclic fatigue tests using two different clockwise kinematics, maximum torque, angle of rotation, and maximum buckling strength (p < .05). The rotary systems also exhibited low flexibility (p < .05). AF F One Blue had the lowest microhardness, whilst Reciproc had the highest value. Conclusion:This multimethod investigation revealed that the flat-side rotary instruments underperformed the reciprocating instruments regarding cyclic fatigue (with two different clockwise kinematics), maximum torque, angle of rotation, maximum

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Section: Discussionmentioning

confidence: 91%

Section: Introductionmentioning

confidence: 99%

Comparative analysis of reciprocating and flat‐side heat‐treated rotary single‐file systems: Design, metallurgical characteristics, and mechanical performance

et al. 2023

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“…Furthermore, other studies have reported conflicting results regarding the performance of flat-side instruments. For instance, Ubaed and Bakr (2022) found that AF F-One exhibited lower cyclic fatigue resistance compared to 2Shape instruments after clinical usage, whilst Mogahed et al (2021) observed that AF F-One generated more debris but demonstrated superior cleaning ability compared to One Shape and OneCurve systems. Conversely, Di Nardo et al (2020) reported better shaping ability of flat-side instruments, and Gambarini et al (2019) demonstrated improved resistance to flexural fatigue in comparison to nonflat-side prototype counterparts.…”

Section: Introductionmentioning

confidence: 99%

To flat or not to flat? Exploring the impact of flat‐side design on rotary instruments using a comprehensive multimethod investigation

Silva,

Alcalde,

Martins

et al. 2023

Int Endodontic J

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AimTo assess the influence of a flat‐side design on the geometry, metallurgy, mechanical performance and shaping ability of a novel nickel‐titanium rotary instrument.MethodologySixty‐five new 25‐mm flat‐side rotary instruments (size 25, taper 0.04) and their nonflat‐side prototypes (n = 65) were assessed for major deformations and examined regarding macroscopic and microscopic design, determination of nickel and titanium elements ratio, measurement of phase transformation temperature and evaluation of mechanical performance parameters including time/cycles to fracture, maximum torque, angle of rotation, maximum bending and buckling strengths and cutting ability. Additionally, unprepared canal areas, volume of hard tissue debris and percentage reduction of dentine thickness were calculated for each tested instrument after preparing mesial canals of mandibular molars (n = 12), using micro‐CT imaging. Statistical analyses were performed using the U‐Mann–Whitney test and independent Student t‐test (α = 5%).ResultsThe number of spirals (n = 8) and blade direction (clockwise) were similar between both flat and nonflat instruments, whilst the helical angles were equivalent (⁓25°). Flat‐instruments showed inconsistencies in the homogeneity of the gold colour on the flat‐side surface, blade discontinuity, and incomplete and variable S‐shaped cross‐sections. The titanium‐to‐nickel ratios were equivalent, but significant differences in the R‐phase finish and austenitic start phase transformation temperatures were observed between the flat and nonflat‐side instruments. The flat‐side instruments demonstrated superior cutting ability compared to the nonflat instruments, as well as, significantly lower values for time to fracture, rotation to fracture and maximum torque to fracture (p < .001). No statistical difference was observed between tested instruments regarding angle of rotation (p = .437), maximum bending (p = .152) and buckling load (p = .411). Preparation protocols using flat and nonflat instruments did not show any statistically significant differences (p > .05). All flat‐side instruments exhibited deformation after shaping procedures.ConclusionsThe flat‐side instrument showcased enhanced cutting ability compared to its nonflat counterpart. However, it exhibited inferior performance in terms of time, rotation and maximum torque to fracture, along with distinct phase transformation temperatures. No differences were observed in the titanium‐to‐nickel ratios, angle of rotation, maximum bending, buckling load, preparation time, percentage of untouched canal walls, volume of hard tissue debris and percentage reduction of dentine thickness.

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“…The sudden fracture of instruments inside the root canal is a major concern in clinical practice and this complication can compromise the entire endodontic treatment [4]. Considering that cyclic fatigue is the most common cause of instrument fracture, it has become a frequent topic of study among endodontic practitioners [5,6]. It can be said with certainty that almost no metal or alloy has introduced as many revolutionary new therapeutic possibilities in dental medicine and endodontics as the NiTi alloy [7].…”

Section: Introductionmentioning

confidence: 99%

Effects of Autoclave Sterilization on Cyclic Fatigue Resistance in 5 Types of Rotary Endodontic Instruments: An In Vitro Study

et al. 2023

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The research was supported by the funds of the scientific research project of the Faculty of Medicine of the University of Niš, which is financed by the Ministry of Education, Science and Technological Development of the Republic of Serbia (451-03-68/2022-14/200113) Conflict of interest: None declared Background:Rotary endodontic instruments are increasingly used in root canal treatment and have replaced stainless steel manual files. Cyclic fatigue is the cyclic loading of stress to produce deformation or fracture. This study aimed to evaluate and compare the effects of autoclave sterilization on cyclic fatigue in 5 types of rotary endodontic instruments. Material/Methods:ProTaper Universal, BioRace, ProTaper Next, Twisted File, and HyFlex CM instruments were included in this study. Each type included 96 instruments, divided into 4 groups according to the number of sterilization cycles (0, 1, 3, 5). After sterilization, each group of instruments was divided into 2 subgroups and tested for cyclic fatigue in 2 simulated canals (45 degrees both and 2 radii, 2 mm and 5 mm). The number of cycles to failure (NCF) was calculated, and statistical analyses were carried out using the t test, Mann-Whitney U test, and ANOVA, followed by the Tukey post hoc test (p<0.05). Fracture surfaces were analyzed using scanning electron microscopy (SEM). Results:Within the group of non-sterilized instruments, ProTaper Universal showed significantly lower resistance to cyclic fatigue compared to the other types of instruments (p<0.001). After repeated sterilization, a significantly higher mean of NCF was observed for BioRace (p<0.001), ProTaper Next (p<0.001), Twisted File (p<0.001), and HyFlex CM (p<0.001) compared to ProTaper Universal. The resistance of HyFlex CM was significantly higher compared to the other types of instruments (p<0.001). Conclusions:The findings from this study showed that autoclave sterilization of newer rotary endodontic instruments could increase resistance to cyclic fatigue.

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Cyclic Fatigue Resistance of Nickel–Titanium Rotary Instruments after Simulated Clinical Use

Cited by 5 publications

References 25 publications

Comparative analysis of reciprocating and flat‐side heat‐treated rotary single‐file systems: Design, metallurgical characteristics, and mechanical performance

Comparative analysis of reciprocating and flat‐side heat‐treated rotary single‐file systems: Design, metallurgical characteristics, and mechanical performance

To flat or not to flat? Exploring the impact of flat‐side design on rotary instruments using a comprehensive multimethod investigation

Effects of Autoclave Sterilization on Cyclic Fatigue Resistance in 5 Types of Rotary Endodontic Instruments: An In Vitro Study

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