Eur Endod J. 2017; 2(1): 22 | DOI: 10.5152/eej.2017.17004

3D Micro-CT Analysis of Void and Gap Formation in Curved Root Canals

Neslihan Þimþek¹, Ali Keleþ², Fuat Ahmetoðlu³, Levent Akinci¹, Kürþat Er^4
1Department of Endodontics Ýnönü University School of Dentistry, Malatya, Turkey
²Department of Endodontics, Ondokuz Mayýs University School of Dentistry, Samsun, Turkey
³Private Dental Clinic, Malatya, Turkey
⁴Department of Endodontics, Akdeniz University School of Dentistry, Antalya, Turkey

Objective: This study used microcomputed tomography (micro-CT) to compare the volumes of voids and gaps in curved root canals instrumented and filled using various techniques.
Methods: Twenty extracted mandibular first molars with two curved mesial root canals were used. Root canals were instrumented using a self-adjusting file (SAF) or Revo-S file system. For standardization, mesio- buccal canals were instrumented with SAF and mesiolingual canals were instrumented with Revo-S in each root. The canals were divided into four experimental groups (n=10 in each). The canals were then filled via cold lateral compaction (CLC) or a thermoplasticized injectable technique (TT) using gutta-percha and AH Plus root canal sealer. The roots were scanned with a micro-CT, and the volumes of the voids and gaps were calculated using three-dimensional (3D) micro-CT images. Data were analyzed using unpaired t- and Krus- kal-Wallis tests. A value of P < 0.05 was considered significant.
Results: None of the tested techniques provided void- or gap-free fillings. Nevertheless, the SAF showed more gap formation than the Revo-S, and TT showed higher gap formation in all experimental groups. These differences, however, were not statistically significant (p>0.05).
Conclusion: The SAF and Revo-S rotary file systems yielded comparable results. No statistically significant difference was found between the results of the various instrumentation and filling techniques.

Keywords: Canal anatomy, Micro-CT, imaging, quality of obturation, obturation, Revo-S, Self-adjusting file, void, and gap.

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