Geometric Analysis of the Distolingual Root and Canal in Mandibular First Molars: A Micro-computed Tomographic Study

Introduction: The purpose of this study was to comprehensively assess by micro-computed tomographic imaging the anatomic features of distolingual (DL) roots and canals in mandibular first molars collected from 1 population. Methods: One hundred two specimens were examined for the location and initial direction of the DL canal and the relationship between the distance of apical deviation and the angle of root curvature. Results: All DL roots had only 1 canal. A new 7-category classification system is proposed for the DL roots of mandibular first molars. Most DL roots were type IV (28 teeth), type III (26 teeth), and type V (25 teeth). The average canal curvature in all root types was over 25 degrees. There was a positive correlation between the angles of root and canal curvature for types II, IV, and V (P < .05) but not for types I and III (P > .05). In the buccolingual view, most DL roots were straight, whereas in the mesiodistal view the root curvature was close to the maximum value. The orifice of the DL canal was 4 times further from the line that bisects a line between the mesiobuccal and mesiolingual canal orifices than the distobuccal canal. The angle between the mesiobuccal-mesiolingual line and the horizontal projection of the coronal third of the DL canal on the pulp floor was 8.1 degrees +/- 10.0 degrees and 6.1 degrees +/- 8.2 degrees for teeth from the left and right side, respectively. The angle between the inserted simulated file and the cementoenamel junction was 57.9 degrees +/- 6.3 degrees. Seventy-three percent of the DL canals had no constriction in the apical area. The DL canals were narrow and had a conical frustum-like shape with a 0.04 taper at the apical portion. Conclusions: The novel classification of the DL roots helps to better understand the clinically challenging anatomy of the root and canal.

Automated summary

This study comprehensively assessed the anatomic features of distolingual roots and canals in mandibular first molars using micro-computed tomographic imaging. A new 7-category classification system was proposed for the DL roots, providing a better understanding of the clinically challenging anatomy of the root and canal.