Abstract

The effect of root canal preparation technique on microcrack initiation is a controversial issue. This systematic review aimed to assess the role of root canal preparation techniques with different kinematics (manual, rotary, reciprocating, adaptive, self-adjusting file) on microcrack initiation. In vitro and in situ studies comparing the influence of at least two different root canal preparation techniques on the initiation of dentin microcracks were searched in PubMed/MEDLINE and SCOPUS up to June 5, 2018 without language and period restriction. Two authors independently reviewed all identified titles and abstracts for eligibility. Tables were generated to summarize the included studies, and the included studies were assessed for bias. Fifty-four (n=54) articles met the eligibility criteria. The results were classified according to the method used for microcrack evaluation, and most studies that used micro-computed tomography showed no formation of new cracks after root canal preparation. In general, the instrumentation techniques induced microcrack formation when the methods were destructive, irrespective of kinematics. In relation to the apex region, when the preparation working length was set as the root canal length subtracted of 1 mm, the risk of microcrack initiation reduces. The majority of the included studies had low risk of bias for all assessed domains. Our results seem to indicate that the various root canal preparation techniques considered in this study will not cause damage to the dental structure when adequately employed and the proper methodology is applied.

Key Words:
endodontic treatment; dentinal microcracks; micro-computed tomography analysis; root canal preparation; systematic review

Resumo

O efeito da técnica de preparo do canal radicular na iniciação e/ou propagação de microfissuras dentinárias é um tema controverso. Essa revisão sistemática teve como objetivo avaliar o papel das técnicas de preparo do canal radicular com diferentes cinemáticas (manual, rotatória, reciprocante, adaptativa e self-adjusting file) na iniciação e/ou propagação de microfissuras dentinárias. Estudos in vitro e in situ comparando a influência de pelo menos duas técnicas diferentes de preparo do canal radicular foram identificados no PubMed/MEDLINE e SCOPUS até 05 de junho de 2018 sem restrição de idioma e tempo. Dois autores revisaram de maneira independente todos títulos e resumos para elegibilidade dos estudos. Tabelas foram criadas para sumarizar os estudos incluídos e os estudos foram avaliados quanto ao risco de viés. Cinquenta e quatro (54) estudos enquadraram-se nos critérios de elegibilidade. Os resultados foram classificados de acordo com o método utilizado para avaliação das microfissuras. A maioria dos estudos que utilizaram micro-tomografia não demonstraram formação de novas microfissuras após preparo do canal radicular. Em geral, técnicas de instrumentação induziram formação de microfissuras quando os métodos de avaliação foram destrutivos, independente da cinemática. Em relação a região do ápice, quando comprimento de trabalho foi definido como o comprimento do canal menos 1 mm, o risco de indução de microfissuras é reduzido. A maioria dos estudos incluídos apresentaram baixo risco de viés para todos os domínios apresentados. Nossos resultados parecem indicar que as diferentes técnicas de preparo do canal radicular não causam danos a estrutura dental quando adequadamente utilizadas e a metodologia adequada é utilizada.

Introduction

Hand root canal preparation techniques were successfully employed for many years, with advances (e.g. development of nickel-titanium instruments) leading to alternative mechanized systems that employ different kinematics, optimizing the procedure, enhancing shaping ability and decreasing the risk of instrument fracture during treatment ¹1 . Thompson, SA. An overview of nickel-titanium alloys used in dentistry. Int Endod J 2000;33:297-310.^,22 . Walia, HM; Brantley, WA; Gerstein, H. An initial investigation of the bending and torsional properties of Nitinol root canal files. J Endod1988;14:346-351.. Kinematics of engine-driven Ni-Ti (nickel-titanium) instruments may be divided into rotary motion, rotational reciprocating motion, vertical vibration (Self-adjusting File system based on in-and-out motion to remove dentine and provide continuous irrigation during preparation), and rotary motion plus rotational reciprocating motion (adaptive motion) ³3 . Capar, ID; Arslan, H. A review of instrumentation kinematics of engine-driven nickel-titanium instruments. Int Endod J2016;49:119-135.. Considering that these systems are operated under different kinematics and parameters of use, these factors may potentially influence the efficacy of the instrumentation and its impact on the final performance of endodontically treated teeth. Recent studies suggested that mechanized instruments may present an increased biological cost leading to additional tooth structure removal and also inducing the formation of microcracks on dentinal root canal surface ⁴4 . Kfir, A; Elkes D; Pawar A; Weissman A; Tsesis, I. Incidence of microcracks in maxillary first premolars after instrumentation with three different mechanized file systems: a comparative ex vivo study. Clin Oral Investig2017;21:405-411.^,55 . Pedulla, E; Genovesi F; Rapisarda, S; La Rosa, GR; Grande, NM; Plotino, G; et al. Effects of 6 Single-File Systems on Dentinal Crack Formation. J Endod 2017;43:456-461.^,66 . Yoldas, O; Yilmaz, S; Atakan, G; Kuden, C; Kasan Z. Dentinal microcrack formation during root canal preparations by different NiTi rotary instruments and the self-adjusting file. J Endod 2012;38:232-235..

It is known that a higher frequency of defects in a material exponentially increases the risk of stress concentration during mechanical loading and potentially impairs the mechanical performance of the restorative assembly leading to catastrophic fracture under lower loads than the conventional nominal resistance ⁷7 . Griffith, AA. The Phenomena of Rupture and Flow in Solids. Philosophical Transactions of the Royal Society of London. Series A Containing Papers of a Mathematical or Physical Character1921;221:163-198., and that microcracks induced by different root canal preparation techniques could compromise tooth mechanical performance during masticatory function ⁸8 . Missau, T; De Carlo Bello, M; Michelon, C; Mastella Lang, P; Kalil Pereira, G; Baldissara, P; et al. Influence of endodontic treatment and retreatment on the fatigue failure load, numbers of cycles for failure, and survival rates of human canine teeth. J Endod2017;43:2081-2087.. In contrast, many studies refute any causal relation between different preparation techniques and microcrack formation ⁹9 . De-Deus, G; Belladonna FG; Souza, EM; Silva, EJ; Neves Ade, A; Alves, H; et al. Micro-computed tomographic assessment on the effect of protaper next and twisted file adaptive systems on dentinal cracks. J Endod2015;41:1116-1119.^,1010. De-Deus, G; Cesar de Azevedo Carvalhal, J; Belladonna, FG; Silva, E; Lopes, RT; Moreira Filho RE; et al. Dentinal microcrack development after canal preparation: a longitudinal in situ micro-computed tomography study using a cadaver model. J Endod2017;43:1553-1558.^,1111. Stringheta, CP; Pelegrine, RA; Kato, AS; Freire, LG; Iglecias EF; Gavini, G; et al. Micro-computed Tomography versus the Cross-sectioning Method to Evaluate Dentin Defects Induced by Different Mechanized Instrumentation Techniques. J Endod 2017;43:2102-2107.^,1212. Zuolo, ML; De-Deus, G; Belladonna, FG; Silva, EJ; Lopes,, RT; Souza EM; et al. Micro-computed tomography assessment of dentinal micro-cracks after root canal preparation with TRUShape and Self-adjusting File Systems. J Endod 2017;43:619-622.. Besides, the existing high heterogeneity of methodological aspects involved in the different in vitro studies including the use of various existing techniques, kinematics and parameters for root canal preparation contributes to this lack of consensus. Thus, a systematic review that considers all existing evidence on such scientific field may help to clarify such causal relation or guide future studies to adequately answer such important question.

There are two major fundamental methodologies to assess the presence of defects/microcracks on tooth structure. The first is based on destructive tests, where teeth are first visually inspected for the presence of external surface defects and dentinal defects are not rule out, then instrumented; next, slices are made, and each slice is individually analyzed considering the presence or absence of defects ⁴4 . Kfir, A; Elkes D; Pawar A; Weissman A; Tsesis, I. Incidence of microcracks in maxillary first premolars after instrumentation with three different mechanized file systems: a comparative ex vivo study. Clin Oral Investig2017;21:405-411.^,55 . Pedulla, E; Genovesi F; Rapisarda, S; La Rosa, GR; Grande, NM; Plotino, G; et al. Effects of 6 Single-File Systems on Dentinal Crack Formation. J Endod 2017;43:456-461.^,66 . Yoldas, O; Yilmaz, S; Atakan, G; Kuden, C; Kasan Z. Dentinal microcrack formation during root canal preparations by different NiTi rotary instruments and the self-adjusting file. J Endod 2012;38:232-235.. Studies using this approach frequently use non-instrumented teeth as the baseline comparison condition, and it is possible that such a processing technique could induce defects ¹¹11. Stringheta, CP; Pelegrine, RA; Kato, AS; Freire, LG; Iglecias EF; Gavini, G; et al. Micro-computed Tomography versus the Cross-sectioning Method to Evaluate Dentin Defects Induced by Different Mechanized Instrumentation Techniques. J Endod 2017;43:2102-2107.^,1313. Swain, MV; Xue, J. State of the art of Micro-CT applications in dental research. Int J Oral Sci2009;1:177-188.. The second approach is based on non-destructive techniques, usually employing micro-computed tomography (µCT) analysis, where the teeth are initially scanned for microcracks and are rescanned after instrumentation, and then the images superposed, which grants considerably higher accuracy, precision and more reliable data ⁹9 . De-Deus, G; Belladonna FG; Souza, EM; Silva, EJ; Neves Ade, A; Alves, H; et al. Micro-computed tomographic assessment on the effect of protaper next and twisted file adaptive systems on dentinal cracks. J Endod2015;41:1116-1119.^,1010. De-Deus, G; Cesar de Azevedo Carvalhal, J; Belladonna, FG; Silva, E; Lopes, RT; Moreira Filho RE; et al. Dentinal microcrack development after canal preparation: a longitudinal in situ micro-computed tomography study using a cadaver model. J Endod2017;43:1553-1558.^,1111. Stringheta, CP; Pelegrine, RA; Kato, AS; Freire, LG; Iglecias EF; Gavini, G; et al. Micro-computed Tomography versus the Cross-sectioning Method to Evaluate Dentin Defects Induced by Different Mechanized Instrumentation Techniques. J Endod 2017;43:2102-2107.^,1212. Zuolo, ML; De-Deus, G; Belladonna, FG; Silva, EJ; Lopes,, RT; Souza EM; et al. Micro-computed tomography assessment of dentinal micro-cracks after root canal preparation with TRUShape and Self-adjusting File Systems. J Endod 2017;43:619-622.^,1313. Swain, MV; Xue, J. State of the art of Micro-CT applications in dental research. Int J Oral Sci2009;1:177-188.. Thus, this systematic review aimed to assess the role of endodontic instrumentation techniques with different kinematics on microcrack initiation. In addition, we discussed the accuracy and validity for microcrack detection of the different implemented methods.

Material and Methods

This systematic review followed the 4-phase flow diagram in the Preferred Reporting Items for Systematic Reviews and Meta-Analyses Statement ¹⁴14. Moher, D; Liberati, A; Tetzlaff, J; Altman, DG; Group, P. Preferred reporting items for systematic reviews and meta-analyses: the PRISMA statement. BMJ 2009;339:b2535. and the review report is based on the PRISMA Statement checklist ¹⁴14. Moher, D; Liberati, A; Tetzlaff, J; Altman, DG; Group, P. Preferred reporting items for systematic reviews and meta-analyses: the PRISMA statement. BMJ 2009;339:b2535..

Registration

We did not pre-register the protocol of our systematic review because the PROSPERO (International prospective register of systematic reviews) does not accept to register systematic reviews of in vitro studies.

Eligibility Criteria

Inclusion Criteria

In the study were included published in vitro studies comparing the influence of at least two different root canal preparation techniques (manual, rotary, reciprocating, adaptive, self-adjusting file) on the initiation of dentin microcracks in teeth and evaluating the quantity and/or length of microcracks. Also, we included in situ studies using cadavers. We included studies independent of the implemented microcrack evaluation technique (destructive or non-destructive), the group of teeth evaluated or the definition of the presence or not of cracks. No language and publication date restrictions were imposed.

The “PICOs” questions (population, intervention, comparison and outcomes) for this systematic review were defined as follows:

Population: endodontically treated teeth

Intervention/Comparison: at least two different root canal preparation techniques (manual, rotary, reciprocating, adaptive, self-adjusting file.

Outcome: initiation of dentin microcracks.

Study design: In vitro and in situ studies

Exclusion Criteria

Articles reporting clinical evaluations and narrative/systematic reviews and other research designs such as accuracy studies of microcracks detection were excluded.

Information Sources and Search

Studies were identified by searching two electronic databases (PubMed/MEDLINE and SCOPUS) without language and period restriction. The search strategy was drafted based on the MeSH terms of PubMed/MEDLINE and related entry terms. Adapted terms were necessary for searching the SCOPUS database. The last search was run on June 5, 2018.

The following search strategies were used:

PubMed/MEDLINE: (((dentinal cracks OR dentinal microcracks OR dentinal defect OR dentinal damage OR cracks in the root dentin OR root fracture)))) AND ((“Root Canal Preparation” [Mesh] OR “Root Canal Preparation” OR “Canal Preparation, Root” OR “Canal Preparations, Root” OR “Preparation, Root Canal” OR “Preparations, Root Canal” OR “Root Canal Preparations”))

SCOPUS: (((dentinal AND cracks OR dentinal AND microcracks OR dentinal AND defect OR dentinal AND damage OR cracks AND in AND the AND root AND dentin OR root AND fracture))) AND ((“Root Canal Preparation” OR “Canal Preparation, Root” OR “Canal Preparations, Root” OR “Preparation, Root Canal” OR “Preparations, Root Canal” OR “Root Canal Preparations”))

Study Selection

Results of the literature searches were uploaded in the Endnote program (Thomson Reuters, New York, NY) and duplicate records were removed. Two reviewers independently screened all titles and abstracts and full-text copies of all studies that met the inclusion criteria or were classified as uncertain (when there was insufficient information in the title/abstract). The same two reviewers independently assessed the full-text copies and the discrepancies were resolved through discussion between the reviewers. A third reviewer was consulted in case of disagreement. In situations in which there was missing information or data, authors were contacted by e-mail.

Data Collection Process and Data Items

A standardized outline was developed to extract the following data:

Main findings.

All data items were initially discussed among four reviewers involved in the study and the data collection process was completed by 2 independent reviewers and verified by two others independently.

Risk of Bias Assessment

The risk of bias of included studies was assessed based on previous studies ¹⁵15. Sarkis-Onofre, R; Skupien, JA; Cenci, MS; Moraes, RR; Pereira-Cenci T. The role of resin cement on bond strength of glass-fiber posts luted into root canals: a systematic review and meta-analysis of in vitro studies. Oper Dent 2014;39:E31-44.^,1616. Isolan, CP; Sarkis-Onofre, R; Lima, GS; Moraes, RR. Bonding to sound and caries-affected dentin: a systematic review and meta-analysis. J Adhes Dent2018;20:7-18. and considering the judgment of the following items: teeth randomization, use of teeth with similar anatomy, blinding of microcracks assessment, independent microcracks assessment and care with maintenance of dental humidity. All data items were discussed among three reviewers and the ratings (unclear, high risk and low risk of bias) were completed by one member of the team and verified by another two members independently. Publication bias was not statistically assessed.

Data Synthesis

The primary outcome was the number of new microcracks observed after the root canal preparation only considering studies evaluating microcracks formation through micro-computed tomography. We decided to use that outcome because previous studies demonstrated that the use of destructive methods could introduce new microcracks during sample preparation (11-13). However, a meta-analysis was not possible based on the heterogeneity of the research designs. As such, studies were synthesized descriptively, and tables were separated by microcrack assessment method.

The data presented on the studies that used destructive methods were collected and synthesized descriptively as complementary data. Another important aspect is that some studies focused on the initiation of cracks on the external surface of apex teeth region, and those studies were also considered separately.

Results

Literature Search

One hundred sixteen (n=116) of the 937 titles and abstracts screened were selected for full-text analysis, with 62 studies excluded and 54 studies (4-6,9-12,17-63) meeting our eligibility criteria (Fig. 1). The reasons for exclusion are reported in Figure 1.

Study Characteristics

Table 1 presents the characteristics of the included studies. Sixteen studies (31.48%) compared rotary and reciprocating preparation techniques ⁵5 . Pedulla, E; Genovesi F; Rapisarda, S; La Rosa, GR; Grande, NM; Plotino, G; et al. Effects of 6 Single-File Systems on Dentinal Crack Formation. J Endod 2017;43:456-461.^,1010. De-Deus, G; Cesar de Azevedo Carvalhal, J; Belladonna, FG; Silva, E; Lopes, RT; Moreira Filho RE; et al. Dentinal microcrack development after canal preparation: a longitudinal in situ micro-computed tomography study using a cadaver model. J Endod2017;43:1553-1558.^,1111. Stringheta, CP; Pelegrine, RA; Kato, AS; Freire, LG; Iglecias EF; Gavini, G; et al. Micro-computed Tomography versus the Cross-sectioning Method to Evaluate Dentin Defects Induced by Different Mechanized Instrumentation Techniques. J Endod 2017;43:2102-2107.^,1717. Abou El; Nasr, HM; Abd El ; Kader, KG. Dentinal damage and fracture resistance of oval roots prepared with single-file systems using different kinematics. J Endod2014;40:849-851.^,2727. Burklein, S; Tsotsis, P; Schafer, E. Incidence of dentinal defects after root canal preparation: reciprocating versus rotary instrumentation. J Endod 2013;39:501-504.^,2828. Cassimiro, M; Romeiro, K; Gominho, L; de Almeida, A; Costa, L; Albuquerque D. Occurence of dentinal defects after root canal preparation with R-phase, M-Wire and Gold Wire instruments: a micro-CT analysis. BMC Oral Health 2017;17:93.^,2929. Cassimiro, M; Romeiro, K; Gominho, L; de Almeida, A; Silva L; Albuquerque, D. Effects of reciproc, protaper next and waveone gold on root canal walls: a stereomicroscope Analysis. Iran Endod J 2018;13:228-233.^,3030. Ceyhanli, KT; Erdilek, N; Tatar, I; Celik, D. Comparison of ProTaper, RaCe and Safesider instruments in the induction of dentinal microcracks: a micro-CT study. Int Endod J2016;49:684-689.^,3232. Coelho, MS; Card, SJ; Tawil, PZ. Light-emitting diode assessment of dentinal defects after root canal preparation with Profile, TRUShape, and WaveOne Gold Systems. J Endod2016;42:1393-1396.^,3636. Harandi, A; Mirzaeerad S; Mehrabani, M; Mahmoudi, E; Bijani, A. Incidence of dentinal crack after root canal preparation by ProTaper Universal, Neolix and SafeSider systems. Iran Endod J 2017;12:432-438.^,4040. Jalali S; Eftekhar, B; Paymanpour, P; Yazdizadeh, M; Jafarzadeh, M. Effects of Reciproc, Mtwo and ProTaper Instruments on Formation of Root Fracture. Iran Endod J2015;10:252-255.^,4141. Kansal, R; Rajput, A; Talwar, S; Roongta, R; Verma, M. Assessment of dentinal damage during canal preparation using reciprocating and rotary files. J Endod2014;40:1443-1446.^,4343. Karatas, E; Gunduz, HA; Kirici, DO; Arslan, H. Incidence of dentinal cracks after root canal preparation with ProTaper Gold, Profile Vortex, F360, Reciproc and ProTaper Universal instruments. Int Endod J2015^,5050. Li SH; Lu, Y; Song, D; Zhou, X; Zheng, QH; Gao, Y; et al. Occurrence of Dentinal Microcracks in Severely Curved Root Canals with ProTaper Universal, WaveOne, and ProTaper Next File Systems. J Endod2015;41:1875-1879.^,5555. Pop, I; Manoharan, A; Zanini, F; Tromba, G; Patel, S; Foschi, F. Synchrotron light-based µCT to analyse the presence of dentinal microcracks post-rotary and reciprocating NiTi instrumentation. Clin Oral Invest2015;19:11-16.^,6060. Topçuoglu, HS; Düzgün, S; Akpek, F; Topçuoglu, G. Effect of glide path and apical preparation size on the incidence of apical crack during the canal preparation using Reciproc, WaveOne, and ProTaper Next systems in curved root canals: A stereomicroscope study. Scanning2016;38:585-590.^,6363. Jamleh, A; Komabayashi, T; Ebihara, A; Nassar, M; Watanabe, S; Yoshioka, T; et al. Root surface strain during canal shaping and its influence on apical microcrack development: A preliminary investigation. Int Endod J2015;48:1103-1111., 12 (22.22%) compared manual, rotary and reciprocating techniques ²¹21. Ashwinkumar, V; Krithikadatta, J; Surendran, S; Velmurugan, N. Effect of reciprocating file motion on microcrack formation in root canals: An SEM study. Int Endod J2014;47:622-627.^,2323. Bahrami, P; Scott, R; Galicia, JC; Arias, A; Peters, OA. Detecting Dentinal Microcracks Using Different Preparation Techniques: An In Situ Study with Cadaver Mandibles. J Endod2017;43:2070-2073.^,2525. Bier, CA; Shemesh, H; Tanomaru-Filho, M; Wesselink, PR; Wu, MK. The ability of different nickel-titanium rotary instruments to induce dentinal damage during canal preparation. J Endod 2009;35:236-238.^,2626. Borges, AH; Damiao, MS; Pereira, TM; Filho, GS; Miranda-Pedro, FL; Luiz de Oliveira da Rosa W; et al. Influence of Cervical Preflaring on the Incidence of Root Dentin Defects. J Endod 2018;44:286-291.^,3131. Çiçek, E; Koçak MM; Saglam, BC; Koçak, S. Evaluation of microcrack formation in root canals after instrumentation with different NiTi rotary file systems: A scanning electron microscopy study. Scanning 2015;37:49-53.^,3333. de Oliveira, BP; Camara, AC; Duarte DA; Heck, RJ; Antonino, ACD; Aguiar CM. Micro-computed tomographic analysis of apical microcracks before and after root canal preparation by hand, rotary, and reciprocating instruments at different working lengths. J Endod 2017;43:1143-1147.^,4747. Khoshbin, E; Donyavi, Z; Abbasi Atibeh E; Roshanaei G; Amani, F. The Effect of canal preparation with four different rotary systems on formation of dentinal cracks: an in vitro evaluation. Iran Endod J2018;13:163-168.^,4949. Li ML; Liao, WL; Cai HX. A micro-computed tomographic evaluation of dentinal microcrack alterations during root canal preparation using single-file Ni-Ti systems. Exp Ther Med2018;15:494-499.^,5454. Monga, P; Bajaj N; Mahajan, P; Garg, S. Comparison of incidence of dentinal defects after root canal preparation with continuous rotation and reciprocating instrumentation. Singapore Dent J2015;36:29-33.^,5656. Priya, NT; Chandrasekhar, V; Anita, S; Tummala, M; Raj, TB; Badami, V; et al. “Dentinal microcracks after root canal preparation” a comparative evaluation with hand, rotary and reciprocating instrumentation. J Clin Diagn Res2014;8:Zc70-72.^,5757. Rose, E; Svec, T. An evaluation of apical cracks in teeth undergoing orthograde root canal instrumentation. J Endod 2015;41:2021-2024.^,6161. Ustun, Y; Aslan, T; Sagsen, B; Kesim, B. The effects of different nickel-titanium instruments on dentinal microcrack formations during root canal preparation. Eur J Dent2015;9:41-46. and 8 studies (14.81%) tested manual and rotary techniques ¹⁸18. Adorno, CG; Yoshioka, T; Suda, H. The effect of root preparation technique and instrumentation length on the development of apical root cracks. J Endod 2009;35:389-392.^,1919. Adorno, CG; Yoshioka, T; Suda, H. The effect of working length and root canal preparation technique on crack development in the apical root canal wall. International Endodontic Journal2010;43:321-327.^,3434. Devale, MR; Mahesh, MC; Bhandary, S. Effect of instrumentation length and instrumentation systems: Hand versus rotary files on apical crack formation - an in vitro study. J Clin Diag Res2017;11:ZC15-ZC18.^,3535. Garg, S; Mahajan, P; Thaman, D; Monga, P. Comparison of dentinal damage induced by different nickel-titanium rotary instruments during canal preparation: An in vitro study. J Conserv Dent 2015;18:302-305.^,3939. Jain, A; Bhadoria, K; Choudhary, B; Patidar, N. Comparison of dentinal defects induced by hand files, multiple, and single rotary files: A stereomicroscopic study. World J Dent 2017;8:45-48.^,4848. Kumari, MR; Krishnaswamy, MM. Comparative analysis of crack propagation in roots with hand and rotary instrumentation of the root canal -an ex-vivo study. J Clin Diagn Res2016;10:Zc16-19.^,5252. Liu, R; Kaiwar, A; Shemesh, H; Wesselink, PR; Hou, B; Wu, MK. Incidence of apical root cracks and apical dentinal detachments after canal preparation with hand and rotary files at different instrumentation lengths. J Endod 2013;39:129-132.^,5353. Milani, AS; Froughreyhani, M; Rahimi, S; Jafarabadi, MA; Paksefat, S. The effect of root canal preparation on the development of dentin cracks. Iran Endod J2012;7:177-182.^,5959. Shori, DD; Shenoi, PR; Baig, AR; Kubde, R; Makade, C; Pandey, S. Stereomicroscopic evaluation of dentinal defects induced by new rotary system: “proTaper NEXT”. J Conserv Dent2015;18:210-213.. The most commonly used irrigating solutions were 2.5% sodium hypochlorite (n=14) ⁶6 . Yoldas, O; Yilmaz, S; Atakan, G; Kuden, C; Kasan Z. Dentinal microcrack formation during root canal preparations by different NiTi rotary instruments and the self-adjusting file. J Endod 2012;38:232-235.^,1010. De-Deus, G; Cesar de Azevedo Carvalhal, J; Belladonna, FG; Silva, E; Lopes, RT; Moreira Filho RE; et al. Dentinal microcrack development after canal preparation: a longitudinal in situ micro-computed tomography study using a cadaver model. J Endod2017;43:1553-1558.^,1111. Stringheta, CP; Pelegrine, RA; Kato, AS; Freire, LG; Iglecias EF; Gavini, G; et al. Micro-computed Tomography versus the Cross-sectioning Method to Evaluate Dentin Defects Induced by Different Mechanized Instrumentation Techniques. J Endod 2017;43:2102-2107.^,1717. Abou El; Nasr, HM; Abd El ; Kader, KG. Dentinal damage and fracture resistance of oval roots prepared with single-file systems using different kinematics. J Endod2014;40:849-851.^,2121. Ashwinkumar, V; Krithikadatta, J; Surendran, S; Velmurugan, N. Effect of reciprocating file motion on microcrack formation in root canals: An SEM study. Int Endod J2014;47:622-627.^,2222. Aydin, U; Aksoy, F; Karataslioglu, E; Yildirim, C. Effect of ethylenediaminetetraacetic acid gel on the incidence of dentinal cracks caused by three novel nickel-titanium systems. Aust Endod J 2015;41:104-110.^,2828. Cassimiro, M; Romeiro, K; Gominho, L; de Almeida, A; Costa, L; Albuquerque D. Occurence of dentinal defects after root canal preparation with R-phase, M-Wire and Gold Wire instruments: a micro-CT analysis. BMC Oral Health 2017;17:93.^,2929. Cassimiro, M; Romeiro, K; Gominho, L; de Almeida, A; Silva L; Albuquerque, D. Effects of reciproc, protaper next and waveone gold on root canal walls: a stereomicroscope Analysis. Iran Endod J 2018;13:228-233.^,3030. Ceyhanli, KT; Erdilek, N; Tatar, I; Celik, D. Comparison of ProTaper, RaCe and Safesider instruments in the induction of dentinal microcracks: a micro-CT study. Int Endod J2016;49:684-689.^,3131. Çiçek, E; Koçak MM; Saglam, BC; Koçak, S. Evaluation of microcrack formation in root canals after instrumentation with different NiTi rotary file systems: A scanning electron microscopy study. Scanning 2015;37:49-53.^,4040. Jalali S; Eftekhar, B; Paymanpour, P; Yazdizadeh, M; Jafarzadeh, M. Effects of Reciproc, Mtwo and ProTaper Instruments on Formation of Root Fracture. Iran Endod J2015;10:252-255.^,5858. Saha, SG; Vijaywargiya, N; Saxena, D; Saha, MK; Bharadwaj, A; Dubey, S. Evaluation of the incidence of microcracks caused by Mtwo and ProTaper Next rotary file systems versus the self-adjusting file: A scanning electron microscopic study. J Conserv Dent2017;20:355-359.^,6060. Topçuoglu, HS; Düzgün, S; Akpek, F; Topçuoglu, G. Effect of glide path and apical preparation size on the incidence of apical crack during the canal preparation using Reciproc, WaveOne, and ProTaper Next systems in curved root canals: A stereomicroscope study. Scanning2016;38:585-590.^,6161. Ustun, Y; Aslan, T; Sagsen, B; Kesim, B. The effects of different nickel-titanium instruments on dentinal microcrack formations during root canal preparation. Eur J Dent2015;9:41-46. and 1% sodium hypochlorite (n=13) ¹⁸18. Adorno, CG; Yoshioka, T; Suda, H. The effect of root preparation technique and instrumentation length on the development of apical root cracks. J Endod 2009;35:389-392.^,1919. Adorno, CG; Yoshioka, T; Suda, H. The effect of working length and root canal preparation technique on crack development in the apical root canal wall. International Endodontic Journal2010;43:321-327.^,2424. Bayram, HM; Bayram, E; Ocak, M; Uygun AD; Celik, HH. Effect of ProTaper Gold, Self-Adjusting File, and XP-endo Shaper instruments on dentinal microcrack formation: a micro-computed tomographic study. J Endod 2017;43:1166-1169.^,2626. Borges, AH; Damiao, MS; Pereira, TM; Filho, GS; Miranda-Pedro, FL; Luiz de Oliveira da Rosa W; et al. Influence of Cervical Preflaring on the Incidence of Root Dentin Defects. J Endod 2018;44:286-291.^,3333. de Oliveira, BP; Camara, AC; Duarte DA; Heck, RJ; Antonino, ACD; Aguiar CM. Micro-computed tomographic analysis of apical microcracks before and after root canal preparation by hand, rotary, and reciprocating instruments at different working lengths. J Endod 2017;43:1143-1147.^,4141. Kansal, R; Rajput, A; Talwar, S; Roongta, R; Verma, M. Assessment of dentinal damage during canal preparation using reciprocating and rotary files. J Endod2014;40:1443-1446.^,4545. Kesim, B; Sagsen, B; Aslan, T. Evaluation of dentinal defects during root canal preparation using thermomechanically processed nickel-titanium files. Eur J Dent2017;11:157-161.^,4646. Khirtika, SG; Ramesh, S. Comparative evaluation of dentinal cracks and detachments after instrumentation with hand and rotary files at various instrumentation lengths: An in vitro study. J Advanced Pharm Educat Res 2017;7:236-239.^,5050. Li SH; Lu, Y; Song, D; Zhou, X; Zheng, QH; Gao, Y; et al. Occurrence of Dentinal Microcracks in Severely Curved Root Canals with ProTaper Universal, WaveOne, and ProTaper Next File Systems. J Endod2015;41:1875-1879.^,5353. Milani, AS; Froughreyhani, M; Rahimi, S; Jafarabadi, MA; Paksefat, S. The effect of root canal preparation on the development of dentin cracks. Iran Endod J2012;7:177-182.^,5555. Pop, I; Manoharan, A; Zanini, F; Tromba, G; Patel, S; Foschi, F. Synchrotron light-based µCT to analyse the presence of dentinal microcracks post-rotary and reciprocating NiTi instrumentation. Clin Oral Invest2015;19:11-16.^,5656. Priya, NT; Chandrasekhar, V; Anita, S; Tummala, M; Raj, TB; Badami, V; et al. “Dentinal microcracks after root canal preparation” a comparative evaluation with hand, rotary and reciprocating instrumentation. J Clin Diagn Res2014;8:Zc70-72.^,6262. Zhou, X; Jiang, S; Wang, X; Wang, S; Zhu, X; Zhang, C. Comparison of dentinal and apical crack formation caused by four different nickel-titanium rotary and reciprocating systems in large and small canals. Dent Mater J2015;34:903-909.. Mandibular incisors were used in 17 studies (31.48%) ⁵5 . Pedulla, E; Genovesi F; Rapisarda, S; La Rosa, GR; Grande, NM; Plotino, G; et al. Effects of 6 Single-File Systems on Dentinal Crack Formation. J Endod 2017;43:456-461.^,1212. Zuolo, ML; De-Deus, G; Belladonna, FG; Silva, EJ; Lopes,, RT; Souza EM; et al. Micro-computed tomography assessment of dentinal micro-cracks after root canal preparation with TRUShape and Self-adjusting File Systems. J Endod 2017;43:619-622.^,2020. Arias, A; Lee, YH; Peters, CI; Gluskin, AH; Peters OA. Comparison of 2 canal preparation techniques in the induction of microcracks: a pilot study with cadaver mandibles. J Endod2014;40:982-985.^,2727. Burklein, S; Tsotsis, P; Schafer, E. Incidence of dentinal defects after root canal preparation: reciprocating versus rotary instrumentation. J Endod 2013;39:501-504.^,2828. Cassimiro, M; Romeiro, K; Gominho, L; de Almeida, A; Costa, L; Albuquerque D. Occurence of dentinal defects after root canal preparation with R-phase, M-Wire and Gold Wire instruments: a micro-CT analysis. BMC Oral Health 2017;17:93.^,2929. Cassimiro, M; Romeiro, K; Gominho, L; de Almeida, A; Silva L; Albuquerque, D. Effects of reciproc, protaper next and waveone gold on root canal walls: a stereomicroscope Analysis. Iran Endod J 2018;13:228-233.^,3333. de Oliveira, BP; Camara, AC; Duarte DA; Heck, RJ; Antonino, ACD; Aguiar CM. Micro-computed tomographic analysis of apical microcracks before and after root canal preparation by hand, rotary, and reciprocating instruments at different working lengths. J Endod 2017;43:1143-1147.^,3737. Helvacioglu-Yigit, D; Aydemir, S; Yilmaz, A. Evaluation of dentinal defect formation after root canal preparation with two reciprocating systems and hand instruments: an in vitro study. Biotechnol Biotechnol Equip2015;29:368-373.^,4444. Karatas, E; Gunduz, HA; Kirici, DO; Arslan, H; Topcu, MC; Yeter, KY. Dentinal crack formation during root canal preparations by the twisted file adaptive, ProTaper Next, ProTaper Universal, and WaveOne instruments. J Endod2015;41:261-264.^,4646. Khirtika, SG; Ramesh, S. Comparative evaluation of dentinal cracks and detachments after instrumentation with hand and rotary files at various instrumentation lengths: An in vitro study. J Advanced Pharm Educat Res 2017;7:236-239.^,5151. Liu, R; Hou, BX; Wesselink, PR; Wu, MK; Shemesh H. The incidence of root microcracks caused by 3 different single-file systems versus the ProTaper system. J Endod 2013;39:1054-1056.^,5252. Liu, R; Kaiwar, A; Shemesh, H; Wesselink, PR; Hou, B; Wu, MK. Incidence of apical root cracks and apical dentinal detachments after canal preparation with hand and rotary files at different instrumentation lengths. J Endod 2013;39:129-132.^,5353. Milani, AS; Froughreyhani, M; Rahimi, S; Jafarabadi, MA; Paksefat, S. The effect of root canal preparation on the development of dentin cracks. Iran Endod J2012;7:177-182.^,5656. Priya, NT; Chandrasekhar, V; Anita, S; Tummala, M; Raj, TB; Badami, V; et al. “Dentinal microcracks after root canal preparation” a comparative evaluation with hand, rotary and reciprocating instrumentation. J Clin Diagn Res2014;8:Zc70-72.^,6161. Ustun, Y; Aslan, T; Sagsen, B; Kesim, B. The effects of different nickel-titanium instruments on dentinal microcrack formations during root canal preparation. Eur J Dent2015;9:41-46. and mandibular premolars in 16 studies (29.63%) ⁴4 . Kfir, A; Elkes D; Pawar A; Weissman A; Tsesis, I. Incidence of microcracks in maxillary first premolars after instrumentation with three different mechanized file systems: a comparative ex vivo study. Clin Oral Investig2017;21:405-411.^,1818. Adorno, CG; Yoshioka, T; Suda, H. The effect of root preparation technique and instrumentation length on the development of apical root cracks. J Endod 2009;35:389-392.^,1919. Adorno, CG; Yoshioka, T; Suda, H. The effect of working length and root canal preparation technique on crack development in the apical root canal wall. International Endodontic Journal2010;43:321-327.^,2222. Aydin, U; Aksoy, F; Karataslioglu, E; Yildirim, C. Effect of ethylenediaminetetraacetic acid gel on the incidence of dentinal cracks caused by three novel nickel-titanium systems. Aust Endod J 2015;41:104-110.^,2424. Bayram, HM; Bayram, E; Ocak, M; Uygun AD; Celik, HH. Effect of ProTaper Gold, Self-Adjusting File, and XP-endo Shaper instruments on dentinal microcrack formation: a micro-computed tomographic study. J Endod 2017;43:1166-1169.^,2525. Bier, CA; Shemesh, H; Tanomaru-Filho, M; Wesselink, PR; Wu, MK. The ability of different nickel-titanium rotary instruments to induce dentinal damage during canal preparation. J Endod 2009;35:236-238.^,3434. Devale, MR; Mahesh, MC; Bhandary, S. Effect of instrumentation length and instrumentation systems: Hand versus rotary files on apical crack formation - an in vitro study. J Clin Diag Res2017;11:ZC15-ZC18.^,3535. Garg, S; Mahajan, P; Thaman, D; Monga, P. Comparison of dentinal damage induced by different nickel-titanium rotary instruments during canal preparation: An in vitro study. J Conserv Dent 2015;18:302-305.^,3838. Hin, ES; Wu, MK; Wesselink, PR; Shemesh, H. Effects of self-adjusting file, Mtwo, and ProTaper on the root canal wall. J Endod2013;39:262-264.^,3939. Jain, A; Bhadoria, K; Choudhary, B; Patidar, N. Comparison of dentinal defects induced by hand files, multiple, and single rotary files: A stereomicroscopic study. World J Dent 2017;8:45-48.^,4040. Jalali S; Eftekhar, B; Paymanpour, P; Yazdizadeh, M; Jafarzadeh, M. Effects of Reciproc, Mtwo and ProTaper Instruments on Formation of Root Fracture. Iran Endod J2015;10:252-255.^,4141. Kansal, R; Rajput, A; Talwar, S; Roongta, R; Verma, M. Assessment of dentinal damage during canal preparation using reciprocating and rotary files. J Endod2014;40:1443-1446.^,4545. Kesim, B; Sagsen, B; Aslan, T. Evaluation of dentinal defects during root canal preparation using thermomechanically processed nickel-titanium files. Eur J Dent2017;11:157-161.^,5454. Monga, P; Bajaj N; Mahajan, P; Garg, S. Comparison of incidence of dentinal defects after root canal preparation with continuous rotation and reciprocating instrumentation. Singapore Dent J2015;36:29-33.^,5858. Saha, SG; Vijaywargiya, N; Saxena, D; Saha, MK; Bharadwaj, A; Dubey, S. Evaluation of the incidence of microcracks caused by Mtwo and ProTaper Next rotary file systems versus the self-adjusting file: A scanning electron microscopic study. J Conserv Dent2017;20:355-359.^,6363. Jamleh, A; Komabayashi, T; Ebihara, A; Nassar, M; Watanabe, S; Yoshioka, T; et al. Root surface strain during canal shaping and its influence on apical microcrack development: A preliminary investigation. Int Endod J2015;48:1103-1111.. Most studies (n=38) used destructive techniques for microcracks evaluation ⁽⁴4 . Kfir, A; Elkes D; Pawar A; Weissman A; Tsesis, I. Incidence of microcracks in maxillary first premolars after instrumentation with three different mechanized file systems: a comparative ex vivo study. Clin Oral Investig2017;21:405-411.^,55 . Pedulla, E; Genovesi F; Rapisarda, S; La Rosa, GR; Grande, NM; Plotino, G; et al. Effects of 6 Single-File Systems on Dentinal Crack Formation. J Endod 2017;43:456-461.^,66 . Yoldas, O; Yilmaz, S; Atakan, G; Kuden, C; Kasan Z. Dentinal microcrack formation during root canal preparations by different NiTi rotary instruments and the self-adjusting file. J Endod 2012;38:232-235.^,1212. Zuolo, ML; De-Deus, G; Belladonna, FG; Silva, EJ; Lopes,, RT; Souza EM; et al. Micro-computed tomography assessment of dentinal micro-cracks after root canal preparation with TRUShape and Self-adjusting File Systems. J Endod 2017;43:619-622.^,1717. Abou El; Nasr, HM; Abd El ; Kader, KG. Dentinal damage and fracture resistance of oval roots prepared with single-file systems using different kinematics. J Endod2014;40:849-851.^,2020. Arias, A; Lee, YH; Peters, CI; Gluskin, AH; Peters OA. Comparison of 2 canal preparation techniques in the induction of microcracks: a pilot study with cadaver mandibles. J Endod2014;40:982-985.^,2121. Ashwinkumar, V; Krithikadatta, J; Surendran, S; Velmurugan, N. Effect of reciprocating file motion on microcrack formation in root canals: An SEM study. Int Endod J2014;47:622-627.^,2222. Aydin, U; Aksoy, F; Karataslioglu, E; Yildirim, C. Effect of ethylenediaminetetraacetic acid gel on the incidence of dentinal cracks caused by three novel nickel-titanium systems. Aust Endod J 2015;41:104-110.^,2323. Bahrami, P; Scott, R; Galicia, JC; Arias, A; Peters, OA. Detecting Dentinal Microcracks Using Different Preparation Techniques: An In Situ Study with Cadaver Mandibles. J Endod2017;43:2070-2073.^,2525. Bier, CA; Shemesh, H; Tanomaru-Filho, M; Wesselink, PR; Wu, MK. The ability of different nickel-titanium rotary instruments to induce dentinal damage during canal preparation. J Endod 2009;35:236-238.^,2626. Borges, AH; Damiao, MS; Pereira, TM; Filho, GS; Miranda-Pedro, FL; Luiz de Oliveira da Rosa W; et al. Influence of Cervical Preflaring on the Incidence of Root Dentin Defects. J Endod 2018;44:286-291.^,2727. Burklein, S; Tsotsis, P; Schafer, E. Incidence of dentinal defects after root canal preparation: reciprocating versus rotary instrumentation. J Endod 2013;39:501-504.^,2929. Cassimiro, M; Romeiro, K; Gominho, L; de Almeida, A; Silva L; Albuquerque, D. Effects of reciproc, protaper next and waveone gold on root canal walls: a stereomicroscope Analysis. Iran Endod J 2018;13:228-233.^,3131. Çiçek, E; Koçak MM; Saglam, BC; Koçak, S. Evaluation of microcrack formation in root canals after instrumentation with different NiTi rotary file systems: A scanning electron microscopy study. Scanning 2015;37:49-53.^,3232. Coelho, MS; Card, SJ; Tawil, PZ. Light-emitting diode assessment of dentinal defects after root canal preparation with Profile, TRUShape, and WaveOne Gold Systems. J Endod2016;42:1393-1396.^,3535. Garg, S; Mahajan, P; Thaman, D; Monga, P. Comparison of dentinal damage induced by different nickel-titanium rotary instruments during canal preparation: An in vitro study. J Conserv Dent 2015;18:302-305.^,3636. Harandi, A; Mirzaeerad S; Mehrabani, M; Mahmoudi, E; Bijani, A. Incidence of dentinal crack after root canal preparation by ProTaper Universal, Neolix and SafeSider systems. Iran Endod J 2017;12:432-438.^,3737. Helvacioglu-Yigit, D; Aydemir, S; Yilmaz, A. Evaluation of dentinal defect formation after root canal preparation with two reciprocating systems and hand instruments: an in vitro study. Biotechnol Biotechnol Equip2015;29:368-373.^,3838. Hin, ES; Wu, MK; Wesselink, PR; Shemesh, H. Effects of self-adjusting file, Mtwo, and ProTaper on the root canal wall. J Endod2013;39:262-264.^,3939. Jain, A; Bhadoria, K; Choudhary, B; Patidar, N. Comparison of dentinal defects induced by hand files, multiple, and single rotary files: A stereomicroscopic study. World J Dent 2017;8:45-48.^,4040. Jalali S; Eftekhar, B; Paymanpour, P; Yazdizadeh, M; Jafarzadeh, M. Effects of Reciproc, Mtwo and ProTaper Instruments on Formation of Root Fracture. Iran Endod J2015;10:252-255.^,4141. Kansal, R; Rajput, A; Talwar, S; Roongta, R; Verma, M. Assessment of dentinal damage during canal preparation using reciprocating and rotary files. J Endod2014;40:1443-1446.^,4242. Karatas, E; Arslan, H; Alsancak, M; Kirici, DO; Ersoy I. Incidence of Dentinal Cracks after Root Canal Preparation with Twisted File Adaptive Instruments Using Different Kinematics. J Endod 2015;41:1130-1133.^,4343. Karatas, E; Gunduz, HA; Kirici, DO; Arslan, H. Incidence of dentinal cracks after root canal preparation with ProTaper Gold, Profile Vortex, F360, Reciproc and ProTaper Universal instruments. Int Endod J2015^,4444. Karatas, E; Gunduz, HA; Kirici, DO; Arslan, H; Topcu, MC; Yeter, KY. Dentinal crack formation during root canal preparations by the twisted file adaptive, ProTaper Next, ProTaper Universal, and WaveOne instruments. J Endod2015;41:261-264.^,4545. Kesim, B; Sagsen, B; Aslan, T. Evaluation of dentinal defects during root canal preparation using thermomechanically processed nickel-titanium files. Eur J Dent2017;11:157-161.^,4646. Khirtika, SG; Ramesh, S. Comparative evaluation of dentinal cracks and detachments after instrumentation with hand and rotary files at various instrumentation lengths: An in vitro study. J Advanced Pharm Educat Res 2017;7:236-239.^,4747. Khoshbin, E; Donyavi, Z; Abbasi Atibeh E; Roshanaei G; Amani, F. The Effect of canal preparation with four different rotary systems on formation of dentinal cracks: an in vitro evaluation. Iran Endod J2018;13:163-168.^,5050. Li SH; Lu, Y; Song, D; Zhou, X; Zheng, QH; Gao, Y; et al. Occurrence of Dentinal Microcracks in Severely Curved Root Canals with ProTaper Universal, WaveOne, and ProTaper Next File Systems. J Endod2015;41:1875-1879.^,5151. Liu, R; Hou, BX; Wesselink, PR; Wu, MK; Shemesh H. The incidence of root microcracks caused by 3 different single-file systems versus the ProTaper system. J Endod 2013;39:1054-1056.^,5252. Liu, R; Kaiwar, A; Shemesh, H; Wesselink, PR; Hou, B; Wu, MK. Incidence of apical root cracks and apical dentinal detachments after canal preparation with hand and rotary files at different instrumentation lengths. J Endod 2013;39:129-132.^,5353. Milani, AS; Froughreyhani, M; Rahimi, S; Jafarabadi, MA; Paksefat, S. The effect of root canal preparation on the development of dentin cracks. Iran Endod J2012;7:177-182.^,5454. Monga, P; Bajaj N; Mahajan, P; Garg, S. Comparison of incidence of dentinal defects after root canal preparation with continuous rotation and reciprocating instrumentation. Singapore Dent J2015;36:29-33.^,5656. Priya, NT; Chandrasekhar, V; Anita, S; Tummala, M; Raj, TB; Badami, V; et al. “Dentinal microcracks after root canal preparation” a comparative evaluation with hand, rotary and reciprocating instrumentation. J Clin Diagn Res2014;8:Zc70-72.^,5757. Rose, E; Svec, T. An evaluation of apical cracks in teeth undergoing orthograde root canal instrumentation. J Endod 2015;41:2021-2024.^,5858. Saha, SG; Vijaywargiya, N; Saxena, D; Saha, MK; Bharadwaj, A; Dubey, S. Evaluation of the incidence of microcracks caused by Mtwo and ProTaper Next rotary file systems versus the self-adjusting file: A scanning electron microscopic study. J Conserv Dent2017;20:355-359.^,5959. Shori, DD; Shenoi, PR; Baig, AR; Kubde, R; Makade, C; Pandey, S. Stereomicroscopic evaluation of dentinal defects induced by new rotary system: “proTaper NEXT”. J Conserv Dent2015;18:210-213.^,6161. Ustun, Y; Aslan, T; Sagsen, B; Kesim, B. The effects of different nickel-titanium instruments on dentinal microcrack formations during root canal preparation. Eur J Dent2015;9:41-46.^). Twenty-nine ²⁹29. Cassimiro, M; Romeiro, K; Gominho, L; de Almeida, A; Silva L; Albuquerque, D. Effects of reciproc, protaper next and waveone gold on root canal walls: a stereomicroscope Analysis. Iran Endod J 2018;13:228-233. studies (53.7%) evaluated the microcracks using a stereomicroscope ⁵5 . Pedulla, E; Genovesi F; Rapisarda, S; La Rosa, GR; Grande, NM; Plotino, G; et al. Effects of 6 Single-File Systems on Dentinal Crack Formation. J Endod 2017;43:456-461.^,66 . Yoldas, O; Yilmaz, S; Atakan, G; Kuden, C; Kasan Z. Dentinal microcrack formation during root canal preparations by different NiTi rotary instruments and the self-adjusting file. J Endod 2012;38:232-235.^,1717. Abou El; Nasr, HM; Abd El ; Kader, KG. Dentinal damage and fracture resistance of oval roots prepared with single-file systems using different kinematics. J Endod2014;40:849-851.^,2222. Aydin, U; Aksoy, F; Karataslioglu, E; Yildirim, C. Effect of ethylenediaminetetraacetic acid gel on the incidence of dentinal cracks caused by three novel nickel-titanium systems. Aust Endod J 2015;41:104-110.^,2525. Bier, CA; Shemesh, H; Tanomaru-Filho, M; Wesselink, PR; Wu, MK. The ability of different nickel-titanium rotary instruments to induce dentinal damage during canal preparation. J Endod 2009;35:236-238.

26. Borges, AH; Damiao, MS; Pereira, TM; Filho, GS; Miranda-Pedro, FL; Luiz de Oliveira da Rosa W; et al. Influence of Cervical Preflaring on the Incidence of Root Dentin Defects. J Endod 2018;44:286-291.^-2727. Burklein, S; Tsotsis, P; Schafer, E. Incidence of dentinal defects after root canal preparation: reciprocating versus rotary instrumentation. J Endod 2013;39:501-504.^,2929. Cassimiro, M; Romeiro, K; Gominho, L; de Almeida, A; Silva L; Albuquerque, D. Effects of reciproc, protaper next and waveone gold on root canal walls: a stereomicroscope Analysis. Iran Endod J 2018;13:228-233.^,3434. Devale, MR; Mahesh, MC; Bhandary, S. Effect of instrumentation length and instrumentation systems: Hand versus rotary files on apical crack formation - an in vitro study. J Clin Diag Res2017;11:ZC15-ZC18.

35. Garg, S; Mahajan, P; Thaman, D; Monga, P. Comparison of dentinal damage induced by different nickel-titanium rotary instruments during canal preparation: An in vitro study. J Conserv Dent 2015;18:302-305.

36. Harandi, A; Mirzaeerad S; Mehrabani, M; Mahmoudi, E; Bijani, A. Incidence of dentinal crack after root canal preparation by ProTaper Universal, Neolix and SafeSider systems. Iran Endod J 2017;12:432-438.

37. Helvacioglu-Yigit, D; Aydemir, S; Yilmaz, A. Evaluation of dentinal defect formation after root canal preparation with two reciprocating systems and hand instruments: an in vitro study. Biotechnol Biotechnol Equip2015;29:368-373.

38. Hin, ES; Wu, MK; Wesselink, PR; Shemesh, H. Effects of self-adjusting file, Mtwo, and ProTaper on the root canal wall. J Endod2013;39:262-264.

39. Jain, A; Bhadoria, K; Choudhary, B; Patidar, N. Comparison of dentinal defects induced by hand files, multiple, and single rotary files: A stereomicroscopic study. World J Dent 2017;8:45-48.

40. Jalali S; Eftekhar, B; Paymanpour, P; Yazdizadeh, M; Jafarzadeh, M. Effects of Reciproc, Mtwo and ProTaper Instruments on Formation of Root Fracture. Iran Endod J2015;10:252-255.

41. Kansal, R; Rajput, A; Talwar, S; Roongta, R; Verma, M. Assessment of dentinal damage during canal preparation using reciprocating and rotary files. J Endod2014;40:1443-1446.

42. Karatas, E; Arslan, H; Alsancak, M; Kirici, DO; Ersoy I. Incidence of Dentinal Cracks after Root Canal Preparation with Twisted File Adaptive Instruments Using Different Kinematics. J Endod 2015;41:1130-1133.

43. Karatas, E; Gunduz, HA; Kirici, DO; Arslan, H. Incidence of dentinal cracks after root canal preparation with ProTaper Gold, Profile Vortex, F360, Reciproc and ProTaper Universal instruments. Int Endod J2015

44. Karatas, E; Gunduz, HA; Kirici, DO; Arslan, H; Topcu, MC; Yeter, KY. Dentinal crack formation during root canal preparations by the twisted file adaptive, ProTaper Next, ProTaper Universal, and WaveOne instruments. J Endod2015;41:261-264.^-4545. Kesim, B; Sagsen, B; Aslan, T. Evaluation of dentinal defects during root canal preparation using thermomechanically processed nickel-titanium files. Eur J Dent2017;11:157-161.^,4747. Khoshbin, E; Donyavi, Z; Abbasi Atibeh E; Roshanaei G; Amani, F. The Effect of canal preparation with four different rotary systems on formation of dentinal cracks: an in vitro evaluation. Iran Endod J2018;13:163-168.^,4848. Kumari, MR; Krishnaswamy, MM. Comparative analysis of crack propagation in roots with hand and rotary instrumentation of the root canal -an ex-vivo study. J Clin Diagn Res2016;10:Zc16-19.^,5050. Li SH; Lu, Y; Song, D; Zhou, X; Zheng, QH; Gao, Y; et al. Occurrence of Dentinal Microcracks in Severely Curved Root Canals with ProTaper Universal, WaveOne, and ProTaper Next File Systems. J Endod2015;41:1875-1879.^,5252. Liu, R; Kaiwar, A; Shemesh, H; Wesselink, PR; Hou, B; Wu, MK. Incidence of apical root cracks and apical dentinal detachments after canal preparation with hand and rotary files at different instrumentation lengths. J Endod 2013;39:129-132.^,5454. Monga, P; Bajaj N; Mahajan, P; Garg, S. Comparison of incidence of dentinal defects after root canal preparation with continuous rotation and reciprocating instrumentation. Singapore Dent J2015;36:29-33.^,5656. Priya, NT; Chandrasekhar, V; Anita, S; Tummala, M; Raj, TB; Badami, V; et al. “Dentinal microcracks after root canal preparation” a comparative evaluation with hand, rotary and reciprocating instrumentation. J Clin Diagn Res2014;8:Zc70-72.^,5959. Shori, DD; Shenoi, PR; Baig, AR; Kubde, R; Makade, C; Pandey, S. Stereomicroscopic evaluation of dentinal defects induced by new rotary system: “proTaper NEXT”. J Conserv Dent2015;18:210-213.^,6060. Topçuoglu, HS; Düzgün, S; Akpek, F; Topçuoglu, G. Effect of glide path and apical preparation size on the incidence of apical crack during the canal preparation using Reciproc, WaveOne, and ProTaper Next systems in curved root canals: A stereomicroscope study. Scanning2016;38:585-590.^,6161. Ustun, Y; Aslan, T; Sagsen, B; Kesim, B. The effects of different nickel-titanium instruments on dentinal microcrack formations during root canal preparation. Eur J Dent2015;9:41-46. and only 11 studies (20.37%) used the µCT ⁹9 . De-Deus, G; Belladonna FG; Souza, EM; Silva, EJ; Neves Ade, A; Alves, H; et al. Micro-computed tomographic assessment on the effect of protaper next and twisted file adaptive systems on dentinal cracks. J Endod2015;41:1116-1119.^,1010. De-Deus, G; Cesar de Azevedo Carvalhal, J; Belladonna, FG; Silva, E; Lopes, RT; Moreira Filho RE; et al. Dentinal microcrack development after canal preparation: a longitudinal in situ micro-computed tomography study using a cadaver model. J Endod2017;43:1553-1558.^,1111. Stringheta, CP; Pelegrine, RA; Kato, AS; Freire, LG; Iglecias EF; Gavini, G; et al. Micro-computed Tomography versus the Cross-sectioning Method to Evaluate Dentin Defects Induced by Different Mechanized Instrumentation Techniques. J Endod 2017;43:2102-2107.^,1212. Zuolo, ML; De-Deus, G; Belladonna, FG; Silva, EJ; Lopes,, RT; Souza EM; et al. Micro-computed tomography assessment of dentinal micro-cracks after root canal preparation with TRUShape and Self-adjusting File Systems. J Endod 2017;43:619-622.^,2424. Bayram, HM; Bayram, E; Ocak, M; Uygun AD; Celik, HH. Effect of ProTaper Gold, Self-Adjusting File, and XP-endo Shaper instruments on dentinal microcrack formation: a micro-computed tomographic study. J Endod 2017;43:1166-1169.^,2828. Cassimiro, M; Romeiro, K; Gominho, L; de Almeida, A; Costa, L; Albuquerque D. Occurence of dentinal defects after root canal preparation with R-phase, M-Wire and Gold Wire instruments: a micro-CT analysis. BMC Oral Health 2017;17:93.^,3030. Ceyhanli, KT; Erdilek, N; Tatar, I; Celik, D. Comparison of ProTaper, RaCe and Safesider instruments in the induction of dentinal microcracks: a micro-CT study. Int Endod J2016;49:684-689.^,3333. de Oliveira, BP; Camara, AC; Duarte DA; Heck, RJ; Antonino, ACD; Aguiar CM. Micro-computed tomographic analysis of apical microcracks before and after root canal preparation by hand, rotary, and reciprocating instruments at different working lengths. J Endod 2017;43:1143-1147.^,4949. Li ML; Liao, WL; Cai HX. A micro-computed tomographic evaluation of dentinal microcrack alterations during root canal preparation using single-file Ni-Ti systems. Exp Ther Med2018;15:494-499.^,5555. Pop, I; Manoharan, A; Zanini, F; Tromba, G; Patel, S; Foschi, F. Synchrotron light-based µCT to analyse the presence of dentinal microcracks post-rotary and reciprocating NiTi instrumentation. Clin Oral Invest2015;19:11-16.^,6363. Jamleh, A; Komabayashi, T; Ebihara, A; Nassar, M; Watanabe, S; Yoshioka, T; et al. Root surface strain during canal shaping and its influence on apical microcrack development: A preliminary investigation. Int Endod J2015;48:1103-1111..

Micro-Computed Tomography Studies

Table 2 features the results of studies that used µCT to evaluate the microcracks (n=11). Seven studies (63.64%) demonstrated no formation of new cracks after root canal preparation ⁹9 . De-Deus, G; Belladonna FG; Souza, EM; Silva, EJ; Neves Ade, A; Alves, H; et al. Micro-computed tomographic assessment on the effect of protaper next and twisted file adaptive systems on dentinal cracks. J Endod2015;41:1116-1119.^,1010. De-Deus, G; Cesar de Azevedo Carvalhal, J; Belladonna, FG; Silva, E; Lopes, RT; Moreira Filho RE; et al. Dentinal microcrack development after canal preparation: a longitudinal in situ micro-computed tomography study using a cadaver model. J Endod2017;43:1553-1558.^,1111. Stringheta, CP; Pelegrine, RA; Kato, AS; Freire, LG; Iglecias EF; Gavini, G; et al. Micro-computed Tomography versus the Cross-sectioning Method to Evaluate Dentin Defects Induced by Different Mechanized Instrumentation Techniques. J Endod 2017;43:2102-2107.^,1212. Zuolo, ML; De-Deus, G; Belladonna, FG; Silva, EJ; Lopes,, RT; Souza EM; et al. Micro-computed tomography assessment of dentinal micro-cracks after root canal preparation with TRUShape and Self-adjusting File Systems. J Endod 2017;43:619-622.^,2424. Bayram, HM; Bayram, E; Ocak, M; Uygun AD; Celik, HH. Effect of ProTaper Gold, Self-Adjusting File, and XP-endo Shaper instruments on dentinal microcrack formation: a micro-computed tomographic study. J Endod 2017;43:1166-1169.^,2828. Cassimiro, M; Romeiro, K; Gominho, L; de Almeida, A; Costa, L; Albuquerque D. Occurence of dentinal defects after root canal preparation with R-phase, M-Wire and Gold Wire instruments: a micro-CT analysis. BMC Oral Health 2017;17:93.^,3333. de Oliveira, BP; Camara, AC; Duarte DA; Heck, RJ; Antonino, ACD; Aguiar CM. Micro-computed tomographic analysis of apical microcracks before and after root canal preparation by hand, rotary, and reciprocating instruments at different working lengths. J Endod 2017;43:1143-1147., and the following studies revealed formation of new cracks after root canal preparation: Li et al. ⁴⁹49. Li ML; Liao, WL; Cai HX. A micro-computed tomographic evaluation of dentinal microcrack alterations during root canal preparation using single-file Ni-Ti systems. Exp Ther Med2018;15:494-499. showed that the OneShape system (rotary system) resulted in increased microcracks; Ceyhanli et al. ³⁰30. Ceyhanli, KT; Erdilek, N; Tatar, I; Celik, D. Comparison of ProTaper, RaCe and Safesider instruments in the induction of dentinal microcracks: a micro-CT study. Int Endod J2016;49:684-689. compared two rotary systems (ProTaper Universal and RaCe) and one reciprocating system (Safesider) and the results revealed that all systems increased the number of microcracks, and ProTaper Universal generated more microcracks than the RaCe system; Pop et al., ⁵⁵55. Pop, I; Manoharan, A; Zanini, F; Tromba, G; Patel, S; Foschi, F. Synchrotron light-based µCT to analyse the presence of dentinal microcracks post-rotary and reciprocating NiTi instrumentation. Clin Oral Invest2015;19:11-16. tested ProTaper Universal (rotary) and WaveOne (reciprocating) and both systems induced microcracks. Jamleh et al. ⁶³63. Jamleh, A; Komabayashi, T; Ebihara, A; Nassar, M; Watanabe, S; Yoshioka, T; et al. Root surface strain during canal shaping and its influence on apical microcrack development: A preliminary investigation. Int Endod J2015;48:1103-1111. also considered ProTaper (rotary) and WaveOne (reciprocating) systems and the latter showed a trend of introducing fewer microcracks (11 teeth shown microcracks of 20 evaluated with WaveOne, meanwhile 20 of 20 shown microcracks with the ProTaper).

Destructive Methods

Table 3 features the results of the studies that used destructive methodologies to evaluate the microcrack initiation (n=38) ⁴4 . Kfir, A; Elkes D; Pawar A; Weissman A; Tsesis, I. Incidence of microcracks in maxillary first premolars after instrumentation with three different mechanized file systems: a comparative ex vivo study. Clin Oral Investig2017;21:405-411.^,55 . Pedulla, E; Genovesi F; Rapisarda, S; La Rosa, GR; Grande, NM; Plotino, G; et al. Effects of 6 Single-File Systems on Dentinal Crack Formation. J Endod 2017;43:456-461.^,66 . Yoldas, O; Yilmaz, S; Atakan, G; Kuden, C; Kasan Z. Dentinal microcrack formation during root canal preparations by different NiTi rotary instruments and the self-adjusting file. J Endod 2012;38:232-235.^,1212. Zuolo, ML; De-Deus, G; Belladonna, FG; Silva, EJ; Lopes,, RT; Souza EM; et al. Micro-computed tomography assessment of dentinal micro-cracks after root canal preparation with TRUShape and Self-adjusting File Systems. J Endod 2017;43:619-622.^,1717. Abou El; Nasr, HM; Abd El ; Kader, KG. Dentinal damage and fracture resistance of oval roots prepared with single-file systems using different kinematics. J Endod2014;40:849-851.^,2020. Arias, A; Lee, YH; Peters, CI; Gluskin, AH; Peters OA. Comparison of 2 canal preparation techniques in the induction of microcracks: a pilot study with cadaver mandibles. J Endod2014;40:982-985.

21. Ashwinkumar, V; Krithikadatta, J; Surendran, S; Velmurugan, N. Effect of reciprocating file motion on microcrack formation in root canals: An SEM study. Int Endod J2014;47:622-627.

22. Aydin, U; Aksoy, F; Karataslioglu, E; Yildirim, C. Effect of ethylenediaminetetraacetic acid gel on the incidence of dentinal cracks caused by three novel nickel-titanium systems. Aust Endod J 2015;41:104-110.^-2323. Bahrami, P; Scott, R; Galicia, JC; Arias, A; Peters, OA. Detecting Dentinal Microcracks Using Different Preparation Techniques: An In Situ Study with Cadaver Mandibles. J Endod2017;43:2070-2073.^,2525. Bier, CA; Shemesh, H; Tanomaru-Filho, M; Wesselink, PR; Wu, MK. The ability of different nickel-titanium rotary instruments to induce dentinal damage during canal preparation. J Endod 2009;35:236-238.

26. Borges, AH; Damiao, MS; Pereira, TM; Filho, GS; Miranda-Pedro, FL; Luiz de Oliveira da Rosa W; et al. Influence of Cervical Preflaring on the Incidence of Root Dentin Defects. J Endod 2018;44:286-291.^-2727. Burklein, S; Tsotsis, P; Schafer, E. Incidence of dentinal defects after root canal preparation: reciprocating versus rotary instrumentation. J Endod 2013;39:501-504.^,2929. Cassimiro, M; Romeiro, K; Gominho, L; de Almeida, A; Silva L; Albuquerque, D. Effects of reciproc, protaper next and waveone gold on root canal walls: a stereomicroscope Analysis. Iran Endod J 2018;13:228-233.^,3131. Çiçek, E; Koçak MM; Saglam, BC; Koçak, S. Evaluation of microcrack formation in root canals after instrumentation with different NiTi rotary file systems: A scanning electron microscopy study. Scanning 2015;37:49-53.^,3232. Coelho, MS; Card, SJ; Tawil, PZ. Light-emitting diode assessment of dentinal defects after root canal preparation with Profile, TRUShape, and WaveOne Gold Systems. J Endod2016;42:1393-1396.^,3535. Garg, S; Mahajan, P; Thaman, D; Monga, P. Comparison of dentinal damage induced by different nickel-titanium rotary instruments during canal preparation: An in vitro study. J Conserv Dent 2015;18:302-305.

36. Harandi, A; Mirzaeerad S; Mehrabani, M; Mahmoudi, E; Bijani, A. Incidence of dentinal crack after root canal preparation by ProTaper Universal, Neolix and SafeSider systems. Iran Endod J 2017;12:432-438.^-4737. Helvacioglu-Yigit, D; Aydemir, S; Yilmaz, A. Evaluation of dentinal defect formation after root canal preparation with two reciprocating systems and hand instruments: an in vitro study. Biotechnol Biotechnol Equip2015;29:368-373.^,5050. Li SH; Lu, Y; Song, D; Zhou, X; Zheng, QH; Gao, Y; et al. Occurrence of Dentinal Microcracks in Severely Curved Root Canals with ProTaper Universal, WaveOne, and ProTaper Next File Systems. J Endod2015;41:1875-1879.

51. Liu, R; Hou, BX; Wesselink, PR; Wu, MK; Shemesh H. The incidence of root microcracks caused by 3 different single-file systems versus the ProTaper system. J Endod 2013;39:1054-1056.

52. Liu, R; Kaiwar, A; Shemesh, H; Wesselink, PR; Hou, B; Wu, MK. Incidence of apical root cracks and apical dentinal detachments after canal preparation with hand and rotary files at different instrumentation lengths. J Endod 2013;39:129-132.

53. Milani, AS; Froughreyhani, M; Rahimi, S; Jafarabadi, MA; Paksefat, S. The effect of root canal preparation on the development of dentin cracks. Iran Endod J2012;7:177-182.^-5454. Monga, P; Bajaj N; Mahajan, P; Garg, S. Comparison of incidence of dentinal defects after root canal preparation with continuous rotation and reciprocating instrumentation. Singapore Dent J2015;36:29-33.^,5656. Priya, NT; Chandrasekhar, V; Anita, S; Tummala, M; Raj, TB; Badami, V; et al. “Dentinal microcracks after root canal preparation” a comparative evaluation with hand, rotary and reciprocating instrumentation. J Clin Diagn Res2014;8:Zc70-72.^,5757. Rose, E; Svec, T. An evaluation of apical cracks in teeth undergoing orthograde root canal instrumentation. J Endod 2015;41:2021-2024.^,5858. Saha, SG; Vijaywargiya, N; Saxena, D; Saha, MK; Bharadwaj, A; Dubey, S. Evaluation of the incidence of microcracks caused by Mtwo and ProTaper Next rotary file systems versus the self-adjusting file: A scanning electron microscopic study. J Conserv Dent2017;20:355-359.^,5959. Shori, DD; Shenoi, PR; Baig, AR; Kubde, R; Makade, C; Pandey, S. Stereomicroscopic evaluation of dentinal defects induced by new rotary system: “proTaper NEXT”. J Conserv Dent2015;18:210-213.^,6160. Topçuoglu, HS; Düzgün, S; Akpek, F; Topçuoglu, G. Effect of glide path and apical preparation size on the incidence of apical crack during the canal preparation using Reciproc, WaveOne, and ProTaper Next systems in curved root canals: A stereomicroscope study. Scanning2016;38:585-590.. In summary, the majority of these studies induced microcrack formation (23 studies in an undeniable way, 11 in a partial way, where some specific kinematics did not induce microcracks), thus only four studies rejected the hypothesis of microcrack initiation through root canal preparation ²⁰20. Arias, A; Lee, YH; Peters, CI; Gluskin, AH; Peters OA. Comparison of 2 canal preparation techniques in the induction of microcracks: a pilot study with cadaver mandibles. J Endod2014;40:982-985.^,2424. Bayram, HM; Bayram, E; Ocak, M; Uygun AD; Celik, HH. Effect of ProTaper Gold, Self-Adjusting File, and XP-endo Shaper instruments on dentinal microcrack formation: a micro-computed tomographic study. J Endod 2017;43:1166-1169.^,3232. Coelho, MS; Card, SJ; Tawil, PZ. Light-emitting diode assessment of dentinal defects after root canal preparation with Profile, TRUShape, and WaveOne Gold Systems. J Endod2016;42:1393-1396.^,5757. Rose, E; Svec, T. An evaluation of apical cracks in teeth undergoing orthograde root canal instrumentation. J Endod 2015;41:2021-2024..

It is important to highlight that among these four studies that rejected the influence of root canal instrumentation, Coelho et al. ³²32. Coelho, MS; Card, SJ; Tawil, PZ. Light-emitting diode assessment of dentinal defects after root canal preparation with Profile, TRUShape, and WaveOne Gold Systems. J Endod2016;42:1393-1396. did not observe microcracks formation after all instrumentation kinematics considered (Profile on rotary motion, TRUShape on rotary motion and WaveOne Gold on reciprocating motion), while Arias et al. ²⁰20. Arias, A; Lee, YH; Peters, CI; Gluskin, AH; Peters OA. Comparison of 2 canal preparation techniques in the induction of microcracks: a pilot study with cadaver mandibles. J Endod2014;40:982-985. (considering Profile GT by hand motion, WaveOne on reciprocating motion) and Bahrami et al. ²³23. Bahrami, P; Scott, R; Galicia, JC; Arias, A; Peters, OA. Detecting Dentinal Microcracks Using Different Preparation Techniques: An In Situ Study with Cadaver Mandibles. J Endod2017;43:2070-2073. (considering Stainless steel K-Flexo files by hand motion, TRUShape on rotary motion, WaveOne Gold on reciprocating motion) observed absence of any defect and Rose & Svec did not observe microcrack formation considering WaveOne on reciprocating motion, ProTaper on rotatory motion and GT files by hand motion ⁵⁷57. Rose, E; Svec, T. An evaluation of apical cracks in teeth undergoing orthograde root canal instrumentation. J Endod 2015;41:2021-2024..

Among the studies that partially support an instrumentation technique influence, hand ⁶6 . Yoldas, O; Yilmaz, S; Atakan, G; Kuden, C; Kasan Z. Dentinal microcrack formation during root canal preparations by different NiTi rotary instruments and the self-adjusting file. J Endod 2012;38:232-235.^,2525. Bier, CA; Shemesh, H; Tanomaru-Filho, M; Wesselink, PR; Wu, MK. The ability of different nickel-titanium rotary instruments to induce dentinal damage during canal preparation. J Endod 2009;35:236-238.^,3131. Çiçek, E; Koçak MM; Saglam, BC; Koçak, S. Evaluation of microcrack formation in root canals after instrumentation with different NiTi rotary file systems: A scanning electron microscopy study. Scanning 2015;37:49-53.^,3535. Garg, S; Mahajan, P; Thaman, D; Monga, P. Comparison of dentinal damage induced by different nickel-titanium rotary instruments during canal preparation: An in vitro study. J Conserv Dent 2015;18:302-305.^,4747. Khoshbin, E; Donyavi, Z; Abbasi Atibeh E; Roshanaei G; Amani, F. The Effect of canal preparation with four different rotary systems on formation of dentinal cracks: an in vitro evaluation. Iran Endod J2018;13:163-168.^,5454. Monga, P; Bajaj N; Mahajan, P; Garg, S. Comparison of incidence of dentinal defects after root canal preparation with continuous rotation and reciprocating instrumentation. Singapore Dent J2015;36:29-33.^,6161. Ustun, Y; Aslan, T; Sagsen, B; Kesim, B. The effects of different nickel-titanium instruments on dentinal microcrack formations during root canal preparation. Eur J Dent2015;9:41-46., SAF ⁴4 . Kfir, A; Elkes D; Pawar A; Weissman A; Tsesis, I. Incidence of microcracks in maxillary first premolars after instrumentation with three different mechanized file systems: a comparative ex vivo study. Clin Oral Investig2017;21:405-411.^,66 . Yoldas, O; Yilmaz, S; Atakan, G; Kuden, C; Kasan Z. Dentinal microcrack formation during root canal preparations by different NiTi rotary instruments and the self-adjusting file. J Endod 2012;38:232-235.^,5151. Liu, R; Hou, BX; Wesselink, PR; Wu, MK; Shemesh H. The incidence of root microcracks caused by 3 different single-file systems versus the ProTaper system. J Endod 2013;39:1054-1056. or TFA ⁶²62. Zhou, X; Jiang, S; Wang, X; Wang, S; Zhu, X; Zhang, C. Comparison of dentinal and apical crack formation caused by four different nickel-titanium rotary and reciprocating systems in large and small canals. Dent Mater J2015;34:903-909. kinematics were the employed techniques when no microcracks were observed. Moreover, Bier et al. ²⁵25. Bier, CA; Shemesh, H; Tanomaru-Filho, M; Wesselink, PR; Wu, MK. The ability of different nickel-titanium rotary instruments to induce dentinal damage during canal preparation. J Endod 2009;35:236-238. observed the use of a rotary instrument which did not induce microcracks (S-ApeX system), whereas the use of ProTaper, ProFile and SystemGT all on rotary motion lead to microcrack initiation.

Apex Region

Table 4 features the results of the studies that considered the external apex region of teeth instrumented under different kinematics (n=8) ¹⁸18. Adorno, CG; Yoshioka, T; Suda, H. The effect of root preparation technique and instrumentation length on the development of apical root cracks. J Endod 2009;35:389-392.^,1919. Adorno, CG; Yoshioka, T; Suda, H. The effect of working length and root canal preparation technique on crack development in the apical root canal wall. International Endodontic Journal2010;43:321-327.^,3434. Devale, MR; Mahesh, MC; Bhandary, S. Effect of instrumentation length and instrumentation systems: Hand versus rotary files on apical crack formation - an in vitro study. J Clin Diag Res2017;11:ZC15-ZC18.^,4848. Kumari, MR; Krishnaswamy, MM. Comparative analysis of crack propagation in roots with hand and rotary instrumentation of the root canal -an ex-vivo study. J Clin Diagn Res2016;10:Zc16-19.^,5151. Liu, R; Hou, BX; Wesselink, PR; Wu, MK; Shemesh H. The incidence of root microcracks caused by 3 different single-file systems versus the ProTaper system. J Endod 2013;39:1054-1056.^,5252. Liu, R; Kaiwar, A; Shemesh, H; Wesselink, PR; Hou, B; Wu, MK. Incidence of apical root cracks and apical dentinal detachments after canal preparation with hand and rotary files at different instrumentation lengths. J Endod 2013;39:129-132.^,5757. Rose, E; Svec, T. An evaluation of apical cracks in teeth undergoing orthograde root canal instrumentation. J Endod 2015;41:2021-2024.^,6262. Zhou, X; Jiang, S; Wang, X; Wang, S; Zhu, X; Zhang, C. Comparison of dentinal and apical crack formation caused by four different nickel-titanium rotary and reciprocating systems in large and small canals. Dent Mater J2015;34:903-909.. Five of these studies compared hand and rotary instrumentation ¹⁸18. Adorno, CG; Yoshioka, T; Suda, H. The effect of root preparation technique and instrumentation length on the development of apical root cracks. J Endod 2009;35:389-392.^,1919. Adorno, CG; Yoshioka, T; Suda, H. The effect of working length and root canal preparation technique on crack development in the apical root canal wall. International Endodontic Journal2010;43:321-327.^,3434. Devale, MR; Mahesh, MC; Bhandary, S. Effect of instrumentation length and instrumentation systems: Hand versus rotary files on apical crack formation - an in vitro study. J Clin Diag Res2017;11:ZC15-ZC18.^,4848. Kumari, MR; Krishnaswamy, MM. Comparative analysis of crack propagation in roots with hand and rotary instrumentation of the root canal -an ex-vivo study. J Clin Diagn Res2016;10:Zc16-19.^,5252. Liu, R; Kaiwar, A; Shemesh, H; Wesselink, PR; Hou, B; Wu, MK. Incidence of apical root cracks and apical dentinal detachments after canal preparation with hand and rotary files at different instrumentation lengths. J Endod 2013;39:129-132.; one compared hand and rotary and reciprocating ⁵⁷57. Rose, E; Svec, T. An evaluation of apical cracks in teeth undergoing orthograde root canal instrumentation. J Endod 2015;41:2021-2024.; one compared rotary, reciprocating and TFA⁵⁷57. Rose, E; Svec, T. An evaluation of apical cracks in teeth undergoing orthograde root canal instrumentation. J Endod 2015;41:2021-2024.; and one rotary, reciprocating and SFA ⁵¹51. Liu, R; Hou, BX; Wesselink, PR; Wu, MK; Shemesh H. The incidence of root microcracks caused by 3 different single-file systems versus the ProTaper system. J Endod 2013;39:1054-1056..

In summary, these types of in vitro studies showed a positive relationship between instrumentation and defect introduction (irrespective of the employed kinematics - 6 supported microcrack formation ¹⁸18. Adorno, CG; Yoshioka, T; Suda, H. The effect of root preparation technique and instrumentation length on the development of apical root cracks. J Endod 2009;35:389-392.^,1919. Adorno, CG; Yoshioka, T; Suda, H. The effect of working length and root canal preparation technique on crack development in the apical root canal wall. International Endodontic Journal2010;43:321-327.^,3434. Devale, MR; Mahesh, MC; Bhandary, S. Effect of instrumentation length and instrumentation systems: Hand versus rotary files on apical crack formation - an in vitro study. J Clin Diag Res2017;11:ZC15-ZC18.^,4848. Kumari, MR; Krishnaswamy, MM. Comparative analysis of crack propagation in roots with hand and rotary instrumentation of the root canal -an ex-vivo study. J Clin Diagn Res2016;10:Zc16-19.^,5252. Liu, R; Kaiwar, A; Shemesh, H; Wesselink, PR; Hou, B; Wu, MK. Incidence of apical root cracks and apical dentinal detachments after canal preparation with hand and rotary files at different instrumentation lengths. J Endod 2013;39:129-132.^,6262. Zhou, X; Jiang, S; Wang, X; Wang, S; Zhu, X; Zhang, C. Comparison of dentinal and apical crack formation caused by four different nickel-titanium rotary and reciprocating systems in large and small canals. Dent Mater J2015;34:903-909., 1 only showed one system ⁵¹51. Liu, R; Hou, BX; Wesselink, PR; Wu, MK; Shemesh H. The incidence of root microcracks caused by 3 different single-file systems versus the ProTaper system. J Endod 2013;39:1054-1056. (Protaper on rotary motion), and 1 completely discarded microcrack formation for any system ⁵⁷57. Rose, E; Svec, T. An evaluation of apical cracks in teeth undergoing orthograde root canal instrumentation. J Endod 2015;41:2021-2024. (considering Profile GT on hand motion, ProTaper Universal on rotary motion and WaveOne on reciprocating motion).

Another important factor considered in the majority of these studies was the working length (WL) for instrumentation; only Liu et al. ⁵¹51. Liu, R; Hou, BX; Wesselink, PR; Wu, MK; Shemesh H. The incidence of root microcracks caused by 3 different single-file systems versus the ProTaper system. J Endod 2013;39:1054-1056. and Rose & Svec ⁵⁷57. Rose, E; Svec, T. An evaluation of apical cracks in teeth undergoing orthograde root canal instrumentation. J Endod 2015;41:2021-2024. did not consider this factor. It seems consensual that when WL is set on total root canal length (RCL) or over this measurement the risk of microcrack initiation is increased, while when at least 1 mm WL for instrumentation is subtracted from the RCL the potential for microcrack initiation is decreased, irrespective of instrument kinematics. The only exception noticed was in Devale et al. ³⁴34. Devale, MR; Mahesh, MC; Bhandary, S. Effect of instrumentation length and instrumentation systems: Hand versus rotary files on apical crack formation - an in vitro study. J Clin Diag Res2017;11:ZC15-ZC18., wherein the WL set on RCL and RCL-1mm depicted similar microcrack formation using hand instruments, although they also depicted a significant decrease in such occurrence for the other considered systems (Race and K3 rotary instruments).

Risk of Bias

The majority of the included studies had a low risk of bias with regard to the following items: teeth randomization (66.6%), blinding of outcome assessment (55.5%), independent assessment (59.2%) and control of teeth moisture (94.4%), and all studies presented low risk of bias with regard to using teeth with similar anatomy (Fig. 2). The review of the authors’ judgments on each risk of bias item for each included study are presented in Figure 3.

Discussion

Our systematic review is the first to our knowledge that synthesizes all studies assessing the influence of different root canal preparation techniques on microcrack initiation, in endodontically treated teeth. Clear evidence was found refuting any alleged influence of root canal preparation leading to microcrack initiation, as the majority of studies that used a reliable and accurate methodology showed no relationship between these factors ⁹9 . De-Deus, G; Belladonna FG; Souza, EM; Silva, EJ; Neves Ade, A; Alves, H; et al. Micro-computed tomographic assessment on the effect of protaper next and twisted file adaptive systems on dentinal cracks. J Endod2015;41:1116-1119.^,1010. De-Deus, G; Cesar de Azevedo Carvalhal, J; Belladonna, FG; Silva, E; Lopes, RT; Moreira Filho RE; et al. Dentinal microcrack development after canal preparation: a longitudinal in situ micro-computed tomography study using a cadaver model. J Endod2017;43:1553-1558.^,1111. Stringheta, CP; Pelegrine, RA; Kato, AS; Freire, LG; Iglecias EF; Gavini, G; et al. Micro-computed Tomography versus the Cross-sectioning Method to Evaluate Dentin Defects Induced by Different Mechanized Instrumentation Techniques. J Endod 2017;43:2102-2107.^,1212. Zuolo, ML; De-Deus, G; Belladonna, FG; Silva, EJ; Lopes,, RT; Souza EM; et al. Micro-computed tomography assessment of dentinal micro-cracks after root canal preparation with TRUShape and Self-adjusting File Systems. J Endod 2017;43:619-622.^,2424. Bayram, HM; Bayram, E; Ocak, M; Uygun AD; Celik, HH. Effect of ProTaper Gold, Self-Adjusting File, and XP-endo Shaper instruments on dentinal microcrack formation: a micro-computed tomographic study. J Endod 2017;43:1166-1169.^,2828. Cassimiro, M; Romeiro, K; Gominho, L; de Almeida, A; Costa, L; Albuquerque D. Occurence of dentinal defects after root canal preparation with R-phase, M-Wire and Gold Wire instruments: a micro-CT analysis. BMC Oral Health 2017;17:93.^,3333. de Oliveira, BP; Camara, AC; Duarte DA; Heck, RJ; Antonino, ACD; Aguiar CM. Micro-computed tomographic analysis of apical microcracks before and after root canal preparation by hand, rotary, and reciprocating instruments at different working lengths. J Endod 2017;43:1143-1147..

The lack of consensus on the effect of the instrumentation technique on microcrack development was mainly motivated by the influence of the evaluation methods acting as confounders ¹¹11. Stringheta, CP; Pelegrine, RA; Kato, AS; Freire, LG; Iglecias EF; Gavini, G; et al. Micro-computed Tomography versus the Cross-sectioning Method to Evaluate Dentin Defects Induced by Different Mechanized Instrumentation Techniques. J Endod 2017;43:2102-2107.. Destructive methodologies such as stereomicroscope demonstrated that root canal preparation techniques lead to microcracks formation that were not present before the instrumentation ⁵5 . Pedulla, E; Genovesi F; Rapisarda, S; La Rosa, GR; Grande, NM; Plotino, G; et al. Effects of 6 Single-File Systems on Dentinal Crack Formation. J Endod 2017;43:456-461.^,66 . Yoldas, O; Yilmaz, S; Atakan, G; Kuden, C; Kasan Z. Dentinal microcrack formation during root canal preparations by different NiTi rotary instruments and the self-adjusting file. J Endod 2012;38:232-235.^,1111. Stringheta, CP; Pelegrine, RA; Kato, AS; Freire, LG; Iglecias EF; Gavini, G; et al. Micro-computed Tomography versus the Cross-sectioning Method to Evaluate Dentin Defects Induced by Different Mechanized Instrumentation Techniques. J Endod 2017;43:2102-2107.^,1717. Abou El; Nasr, HM; Abd El ; Kader, KG. Dentinal damage and fracture resistance of oval roots prepared with single-file systems using different kinematics. J Endod2014;40:849-851.^,2121. Ashwinkumar, V; Krithikadatta, J; Surendran, S; Velmurugan, N. Effect of reciprocating file motion on microcrack formation in root canals: An SEM study. Int Endod J2014;47:622-627.^,2222. Aydin, U; Aksoy, F; Karataslioglu, E; Yildirim, C. Effect of ethylenediaminetetraacetic acid gel on the incidence of dentinal cracks caused by three novel nickel-titanium systems. Aust Endod J 2015;41:104-110.^,2525. Bier, CA; Shemesh, H; Tanomaru-Filho, M; Wesselink, PR; Wu, MK. The ability of different nickel-titanium rotary instruments to induce dentinal damage during canal preparation. J Endod 2009;35:236-238.^,2727. Burklein, S; Tsotsis, P; Schafer, E. Incidence of dentinal defects after root canal preparation: reciprocating versus rotary instrumentation. J Endod 2013;39:501-504.^,2929. Cassimiro, M; Romeiro, K; Gominho, L; de Almeida, A; Silva L; Albuquerque, D. Effects of reciproc, protaper next and waveone gold on root canal walls: a stereomicroscope Analysis. Iran Endod J 2018;13:228-233.^,3131. Çiçek, E; Koçak MM; Saglam, BC; Koçak, S. Evaluation of microcrack formation in root canals after instrumentation with different NiTi rotary file systems: A scanning electron microscopy study. Scanning 2015;37:49-53.^,3535. Garg, S; Mahajan, P; Thaman, D; Monga, P. Comparison of dentinal damage induced by different nickel-titanium rotary instruments during canal preparation: An in vitro study. J Conserv Dent 2015;18:302-305.^,3636. Harandi, A; Mirzaeerad S; Mehrabani, M; Mahmoudi, E; Bijani, A. Incidence of dentinal crack after root canal preparation by ProTaper Universal, Neolix and SafeSider systems. Iran Endod J 2017;12:432-438.^,3737. Helvacioglu-Yigit, D; Aydemir, S; Yilmaz, A. Evaluation of dentinal defect formation after root canal preparation with two reciprocating systems and hand instruments: an in vitro study. Biotechnol Biotechnol Equip2015;29:368-373.^,3838. Hin, ES; Wu, MK; Wesselink, PR; Shemesh, H. Effects of self-adjusting file, Mtwo, and ProTaper on the root canal wall. J Endod2013;39:262-264.^,4040. Jalali S; Eftekhar, B; Paymanpour, P; Yazdizadeh, M; Jafarzadeh, M. Effects of Reciproc, Mtwo and ProTaper Instruments on Formation of Root Fracture. Iran Endod J2015;10:252-255.^,4141. Kansal, R; Rajput, A; Talwar, S; Roongta, R; Verma, M. Assessment of dentinal damage during canal preparation using reciprocating and rotary files. J Endod2014;40:1443-1446.^,4343. Karatas, E; Gunduz, HA; Kirici, DO; Arslan, H. Incidence of dentinal cracks after root canal preparation with ProTaper Gold, Profile Vortex, F360, Reciproc and ProTaper Universal instruments. Int Endod J2015^,4444. Karatas, E; Gunduz, HA; Kirici, DO; Arslan, H; Topcu, MC; Yeter, KY. Dentinal crack formation during root canal preparations by the twisted file adaptive, ProTaper Next, ProTaper Universal, and WaveOne instruments. J Endod2015;41:261-264.^,5050. Li SH; Lu, Y; Song, D; Zhou, X; Zheng, QH; Gao, Y; et al. Occurrence of Dentinal Microcracks in Severely Curved Root Canals with ProTaper Universal, WaveOne, and ProTaper Next File Systems. J Endod2015;41:1875-1879.^,5353. Milani, AS; Froughreyhani, M; Rahimi, S; Jafarabadi, MA; Paksefat, S. The effect of root canal preparation on the development of dentin cracks. Iran Endod J2012;7:177-182.^,5454. Monga, P; Bajaj N; Mahajan, P; Garg, S. Comparison of incidence of dentinal defects after root canal preparation with continuous rotation and reciprocating instrumentation. Singapore Dent J2015;36:29-33.^,5656. Priya, NT; Chandrasekhar, V; Anita, S; Tummala, M; Raj, TB; Badami, V; et al. “Dentinal microcracks after root canal preparation” a comparative evaluation with hand, rotary and reciprocating instrumentation. J Clin Diagn Res2014;8:Zc70-72.^,6161. Ustun, Y; Aslan, T; Sagsen, B; Kesim, B. The effects of different nickel-titanium instruments on dentinal microcrack formations during root canal preparation. Eur J Dent2015;9:41-46.^,6262. Zhou, X; Jiang, S; Wang, X; Wang, S; Zhu, X; Zhang, C. Comparison of dentinal and apical crack formation caused by four different nickel-titanium rotary and reciprocating systems in large and small canals. Dent Mater J2015;34:903-909.^,6464. Saha, S; Vijaywargiya, N; Saxena, D; Saha, M; Bharadwaj, A; Dubey, S. Evaluation of the incidence of microcracks caused by Mtwo and ProTaper next rotary file systems versus the self-adjusting file: A scanning electron microscopic study. J Conserv Dent 2017;20:355-359.. In contrast, most of studies using µCT analysis demonstrated no new microcrack formation after root canal preparation ⁹9 . De-Deus, G; Belladonna FG; Souza, EM; Silva, EJ; Neves Ade, A; Alves, H; et al. Micro-computed tomographic assessment on the effect of protaper next and twisted file adaptive systems on dentinal cracks. J Endod2015;41:1116-1119.^,1010. De-Deus, G; Cesar de Azevedo Carvalhal, J; Belladonna, FG; Silva, E; Lopes, RT; Moreira Filho RE; et al. Dentinal microcrack development after canal preparation: a longitudinal in situ micro-computed tomography study using a cadaver model. J Endod2017;43:1553-1558.^,1111. Stringheta, CP; Pelegrine, RA; Kato, AS; Freire, LG; Iglecias EF; Gavini, G; et al. Micro-computed Tomography versus the Cross-sectioning Method to Evaluate Dentin Defects Induced by Different Mechanized Instrumentation Techniques. J Endod 2017;43:2102-2107.^,1212. Zuolo, ML; De-Deus, G; Belladonna, FG; Silva, EJ; Lopes,, RT; Souza EM; et al. Micro-computed tomography assessment of dentinal micro-cracks after root canal preparation with TRUShape and Self-adjusting File Systems. J Endod 2017;43:619-622.^,2424. Bayram, HM; Bayram, E; Ocak, M; Uygun AD; Celik, HH. Effect of ProTaper Gold, Self-Adjusting File, and XP-endo Shaper instruments on dentinal microcrack formation: a micro-computed tomographic study. J Endod 2017;43:1166-1169.^,2828. Cassimiro, M; Romeiro, K; Gominho, L; de Almeida, A; Costa, L; Albuquerque D. Occurence of dentinal defects after root canal preparation with R-phase, M-Wire and Gold Wire instruments: a micro-CT analysis. BMC Oral Health 2017;17:93.^,3333. de Oliveira, BP; Camara, AC; Duarte DA; Heck, RJ; Antonino, ACD; Aguiar CM. Micro-computed tomographic analysis of apical microcracks before and after root canal preparation by hand, rotary, and reciprocating instruments at different working lengths. J Endod 2017;43:1143-1147.. The reason why this difference occurs is that µCT is the most reliable and accurate method.

A recent systematic review ⁶⁵65. Wei, X; Hu, B; Peng, H; Tang, M; Song, J. The incidence of dentinal cracks during root canal preparations with reciprocating single-file and rotary-file systems: A meta-analysis. Dent Mater J2017;36:243-252. evaluating the incidence of dentinal microcracks during the use of reciprocating and rotatory systems considering only destructive methods (teeth sectioned and examined with stereomicroscope or scanning electron microscopy - SEM) demonstrated that the ProTaper technique resulted in more dentinal microcracks compared to other systems. Our results, considering only non-destructive methods, revealed that regardless of kinematic used most of studies demonstrated no formation of new cracks after root canal preparation. In addition, the problems related to the use of destructive techniques are that they do not consider the potential injury caused by the single interplay of different sources of stress on root canal dentin in the different treatment moments. Issues such as the effect of the NaOCl substance used during irrigation, the mechanical preparation itself, the sectioning methodology ¹¹11. Stringheta, CP; Pelegrine, RA; Kato, AS; Freire, LG; Iglecias EF; Gavini, G; et al. Micro-computed Tomography versus the Cross-sectioning Method to Evaluate Dentin Defects Induced by Different Mechanized Instrumentation Techniques. J Endod 2017;43:2102-2107., the inherent dehydration caused by the difficulty of maintaining of an adequate condition during the time spent in executing such methodology ⁶⁶66. Shemesh, H; Lindtner, T; Portoles, CA; Zaslansky, P. Dehydration induces cracking in root dentin irrespective of instrumentation: a two-dimensional and three-dimensional study. J Endod 2018;44:120-125., and the mandatory alcohol series dehydration that precedes scanning electron microscopy analysis are not considered. Also, destructive methods only allow assessing limited levels of the root canal length ¹¹11. Stringheta, CP; Pelegrine, RA; Kato, AS; Freire, LG; Iglecias EF; Gavini, G; et al. Micro-computed Tomography versus the Cross-sectioning Method to Evaluate Dentin Defects Induced by Different Mechanized Instrumentation Techniques. J Endod 2017;43:2102-2107..

Micro-computed tomography analysis assesses all of the root canal length, allowing the accurate positioning of dentinal microcracks. The three-dimensional reconstruction can be performed at different stages of endodontic treatment permitting that the pre-existing microcracks can be observed as it is a non-destructive method ¹³13. Swain, MV; Xue, J. State of the art of Micro-CT applications in dental research. Int J Oral Sci2009;1:177-188.^,6767. De-Deus, G; Belladonna, FG; Silva, EJ; Souza, EM; Versiani, MA. Critical appraisal of some methodological aspects of using micro-CT technology in the study of dentinal microcracks in endodontics. Int Endod J2016;49:216-219.. In regards to the effect of dehydration on microcrack initiation, Shemesh et al. ⁶⁶66. Shemesh, H; Lindtner, T; Portoles, CA; Zaslansky, P. Dehydration induces cracking in root dentin irrespective of instrumentation: a two-dimensional and three-dimensional study. J Endod 2018;44:120-125. states that even studies which use µCT analysis are susceptible to be biased/confounded by such a factor. In this sense, it may be highlighted that almost all studies included in the present systematic review allegedly took precautions to maintain teeth hydration.

Four studies using µCT ³⁰30. Ceyhanli, KT; Erdilek, N; Tatar, I; Celik, D. Comparison of ProTaper, RaCe and Safesider instruments in the induction of dentinal microcracks: a micro-CT study. Int Endod J2016;49:684-689.^,4949. Li ML; Liao, WL; Cai HX. A micro-computed tomographic evaluation of dentinal microcrack alterations during root canal preparation using single-file Ni-Ti systems. Exp Ther Med2018;15:494-499.^,5555. Pop, I; Manoharan, A; Zanini, F; Tromba, G; Patel, S; Foschi, F. Synchrotron light-based µCT to analyse the presence of dentinal microcracks post-rotary and reciprocating NiTi instrumentation. Clin Oral Invest2015;19:11-16.^,6363. Jamleh, A; Komabayashi, T; Ebihara, A; Nassar, M; Watanabe, S; Yoshioka, T; et al. Root surface strain during canal shaping and its influence on apical microcrack development: A preliminary investigation. Int Endod J2015;48:1103-1111. demonstrated that instrumentation systems increased the number of microcracks. The variation of results could be associated to differences in the methodological aspects, the quality of tool used and the familiarity of the operator with hand techniques. For example, De-Deus et al. ⁶⁷67. De-Deus, G; Belladonna, FG; Silva, EJ; Souza, EM; Versiani, MA. Critical appraisal of some methodological aspects of using micro-CT technology in the study of dentinal microcracks in endodontics. Int Endod J2016;49:216-219. pointed out several aspects that could interfere in the results of the study by Ceyhanli et al. ³⁰30. Ceyhanli, KT; Erdilek, N; Tatar, I; Celik, D. Comparison of ProTaper, RaCe and Safesider instruments in the induction of dentinal microcracks: a micro-CT study. Int Endod J2016;49:684-689.: only 10 sections of each specimen were evaluated (<1.5% of the total of obtained images) which did not permit the evaluating all of the root canal length; the results could be related to false-positive findings because the used method did not permit distinction between microcracks and artefact/noise; and details about scanning and reconstruction were not reported, thus making it difficult to reproduce the study. Jamleh et al. ⁶³63. Jamleh, A; Komabayashi, T; Ebihara, A; Nassar, M; Watanabe, S; Yoshioka, T; et al. Root surface strain during canal shaping and its influence on apical microcrack development: A preliminary investigation. Int Endod J2015;48:1103-1111. evaluated root surface strain and for that they attached a strain gauge to root surface, which required a clean dry surface. Additionally, they also executed staining methods using vacuum to detect cracks on tooth, which also is known to require extensive dehydration and could introduce defects and promote the presence of cracks ⁶⁸68. Shemesh, H; Lindtner, T; Portoles, CA; Zaslansky, P. Dehydration Induces Cracking in Root Dentin Irrespective of Instrumentation: A Two-dimensional and Three-dimensional Study. J Endod2018;44:120-125.. Besides, in another recent study, De-Deus et al. ⁶⁹69. De-Deus, G; Cavalcante DM; Belladonna FG; Carvalhal, J; Souza EM; Lopes, RT; et al. Root dentinal microcracks: a post-extraction experimental phenomenon? Int Endod J2019;52:857-865. using teeth from cadavers revealed absence of preexisting dentinal microcracks in non-endodontically treated teeth demonstrating that the microcracks observed previous to endodontic treatment was considered an experimental phenomenon.

Another important consideration is the influence of the working length set for root canal preparation, irrespective of the implemented technique. Studies are almost unanimous that the subtraction of 1 mm to the root canal length should be performed to avoid damage (microcrack initiation) to the apex region, for all considered preparation techniques. However, a report of microcrack formation absence in the apex region exists in the literature and yet remains to be tested; i.e. the influence that the surrounding tissues may exert on teeth during instrumentation. Rose and Svec, was the only study that used a methodological approach where teeth were instrumented still attached to hemisected jaws under preservation of whole surrounding tissues, and this was the main reason claimed by the authors to explain the absence of any microcracks in any evaluated system ⁵⁷57. Rose, E; Svec, T. An evaluation of apical cracks in teeth undergoing orthograde root canal instrumentation. J Endod 2015;41:2021-2024..

Strengths of our study include rigorous methods for study selection and data extraction including the risk of bias assessment. Also, most included studies presented low risk of bias in all domains. As a limitation of the present study, assessment of the impact of publication bias in the results of the systematic review was not possible. Although it seems clear that the root canal preparation technique is probably not related to microcrack development, the impact of various restorative strategies after endodontic treatment on formation of microcracks remains largely unknown. Also, the compliance of strict protocols from tooth extraction until final analysis should be taken and completely reported when published. In conclusion, our results indicate that the various root canal preparation techniques considered in this study will not cause damage to the dental structure when adequately employed.

Acknowledgements

The study is funded by a grant from the Fundação de Amparo à Pesquisa do Estado do Rio Grande do Sul (ARD - FAPERGS). RSO and GKRP are funded in part by Meridional Foundation (Passo Fundo - Brazil) and RSO in part by Coordination for the Improvement of Higher Education Personnel (no: 88887.162452/2017-00 Capes- Brazil), TPC is partially founded by National Council for Scientific and Technological Development (CNPq- Brazil). The funders had no role in the study design, data collection and analysis, decision to publish or preparation of the manuscript. The authors deny any conflicts of interest related to this study.

References

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