Abstract
BackgroundThe purpose of this study was to determine the anatomical variations of the root canal system of mandibular second molars using cone-beam computed tomography (CBCT).Methods190 mandibular second molars cone-beam computed tomography images were reviewed. The evaluation was performed by a radiologist with endodontic experience and two endodontists trained with CBCT technology. Tooth position, number of root and root canals, C-shaped root canal system configuration, presence of extra root (radix), and radicular grooves were assessed. Data was statistically analyzed using The Chi-square test (α = 0,05) to determine any significant difference between gender and the total number of root and root canals, and any significant difference between gender and root canal anatomical variation.ResultsOverall, 85.5% showed two separated roots, 12.1% a single root, 2.6% three roots or radix. 87.7% showed three root canals, 12.1% two root canals, 2.6% four root canals, and 1.6% a single root canal. 10% showed a single foramen, 75.3% two foramina, 13.6% three foramina and 1% showed four foramina.19.5% showed C-shaped anatomical variation, 51.4% in male patients, 48.6% in female patients. According to Fan classification: C1 13.6% in cervical third, C2 10% in the middle third, C3 17.3% in middle third, 15.5% in apical third, and C4 12.7% in the apical third. Root canals number in these samples were 5.4% a single canal, 21.6% two canals, 70.3% three canals, and 2.7% four canals. The root showed 46% with one foramen, 46% two foramina, and 8% three foramina. Radicular grooves 83.3% were found in the lingual area and 16.2% towards the buccal area.ConclusionsThe most prevalent anatomic presentation of the evaluated sample was a mandibular second molars with two roots, three root canals, and two apical foramina. Their variation was C-shaped root canals and Radix Paramolaris.
Highlights
The purpose of this study was to determine the anatomical variations of the root canal system of man‐ dibular second molars using cone-beam computed tomography (CBCT)
Knowledge of the morphology of the root canal system is essential for the correct diagnosis of anatomical variation before starting the endodontic therapy [1]
The CBCT images of mandibular second molars were acquired from patients who required a preoperative assessment as part of their dental examination, diagnosis, and treatment planning from X-ray institute in Caracas, Venezuela between January 2014 and December 2017
Summary
The purpose of this study was to determine the anatomical variations of the root canal system of man‐ dibular second molars using cone-beam computed tomography (CBCT). A C-shaped configuration is within the anatomical variants that can be found on second molars, this was first described in 1979, by Cooke and Cox [3] as a consequence of an alteration in root development due to the. Some studies reported C-shaped root canal prevalence between 2.7% to 8%, more frequent in the Asian population or white race. This variation seems to be associated with their ethnic [4, 6]. Seo and Park observed that these root canals have a high possibility of splitting into two or three canals in the apical third, so this particular canal anatomy is not predictable based only on the shape of the pulp chamber [7]
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