Three-dimensional modelling and concurrent measurements of root anatomy in mandibular first molar mesial roots using micro-computed tomography

Aim To obtain concurrent radicular measurements in the mesiobuccal (MB) and mesiolingual (ML) canals of mandibular first molars using scanned data of micro‐computed tomography (μCT) with novel software. Methodology The scanned data from 37 mandibular first molar mesial roots were reconstructed and a...

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Published in	International endodontic journal Vol. 48; no. 4; pp. 380 - 389
Main Authors	Lee, J. K., Yoo, Y. J., Perinpanayagam, H., Ha, B. H., Lim, S. M., Oh, S. R., Gu, Y., Chang, S. W., Zhu, Q., Kum, K. Y.
Format	Journal Article
Language	English
Published	England Blackwell Publishing Ltd 01.04.2015
Subjects	canal width dentine thickness Dentistry Humans Kappa 2 Mandible - anatomy & histology mandibular first molar mesial root micro-computed tomography Models, Anatomic Molar - anatomy & histology three-dimensional curvature Tooth Root - anatomy & histology X-Ray Microtomography canal width micro-computed tomography Kappa 2 dentine thickness mandibular first molar mesial root three-dimensional curvature
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Abstract	Aim To obtain concurrent radicular measurements in the mesiobuccal (MB) and mesiolingual (ML) canals of mandibular first molars using scanned data of micro‐computed tomography (μCT) with novel software. Methodology The scanned data from 37 mandibular first molar mesial roots were reconstructed and analysed with custom‐developed software (Kappa2). For each canal, three‐dimensional (3D) surface models were re‐sliced at 0.1‐mm intervals perpendicular to the central axis. Dentine thicknesses, canal widths and 3D curvatures were measured automatically on each slice. Measurements were analysed statistically with anova for differences at each direction and at different levels of both canals. Results Lateral dentine thicknesses were significantly higher than mesial and distal thicknesses, at all the levels of both canals (P < 0.001). Mesial thicknesses were significantly higher than distal thicknesses in the coronal third of both canals (P < 0.001). Thinnest dentine thicknesses were mainly located on the disto‐inside of both canals. Narrowest canal widths were 0.24 ± 0.10 and 0.22 ± 0.09 mm in MB and ML canals, respectively. Canal curvatures were greatest in the apical third of both canals (P < 0.001), and they were greater in the MB canals than in the ML canals (P < 0.05). Conclusions Micro‐computed tomography with novel software provided valuable anatomical information for optimizing instrumentation and minimizing mishaps in nonsurgical root canal treatment.
AbstractList	AIMTo obtain concurrent radicular measurements in the mesiobuccal (MB) and mesiolingual (ML) canals of mandibular first molars using scanned data of micro-computed tomography (μCT) with novel software.METHODOLOGYThe scanned data from 37 mandibular first molar mesial roots were reconstructed and analysed with custom-developed software (Kappa2). For each canal, three-dimensional (3D) surface models were re-sliced at 0.1-mm intervals perpendicular to the central axis. Dentine thicknesses, canal widths and 3D curvatures were measured automatically on each slice. Measurements were analysed statistically with anova for differences at each direction and at different levels of both canals.RESULTSLateral dentine thicknesses were significantly higher than mesial and distal thicknesses, at all the levels of both canals (P < 0.001). Mesial thicknesses were significantly higher than distal thicknesses in the coronal third of both canals (P < 0.001). Thinnest dentine thicknesses were mainly located on the disto-inside of both canals. Narrowest canal widths were 0.24 ± 0.10 and 0.22 ± 0.09 mm in MB and ML canals, respectively. Canal curvatures were greatest in the apical third of both canals (P < 0.001), and they were greater in the MB canals than in the ML canals (P < 0.05).CONCLUSIONSMicro-computed tomography with novel software provided valuable anatomical information for optimizing instrumentation and minimizing mishaps in nonsurgical root canal treatment. To obtain concurrent radicular measurements in the mesiobuccal (MB) and mesiolingual (ML) canals of mandibular first molars using scanned data of micro-computed tomography (μCT) with novel software. The scanned data from 37 mandibular first molar mesial roots were reconstructed and analysed with custom-developed software (Kappa2). For each canal, three-dimensional (3D) surface models were re-sliced at 0.1-mm intervals perpendicular to the central axis. Dentine thicknesses, canal widths and 3D curvatures were measured automatically on each slice. Measurements were analysed statistically with anova for differences at each direction and at different levels of both canals. Lateral dentine thicknesses were significantly higher than mesial and distal thicknesses, at all the levels of both canals (P < 0.001). Mesial thicknesses were significantly higher than distal thicknesses in the coronal third of both canals (P < 0.001). Thinnest dentine thicknesses were mainly located on the disto-inside of both canals. Narrowest canal widths were 0.24 ± 0.10 and 0.22 ± 0.09 mm in MB and ML canals, respectively. Canal curvatures were greatest in the apical third of both canals (P < 0.001), and they were greater in the MB canals than in the ML canals (P < 0.05). Micro-computed tomography with novel software provided valuable anatomical information for optimizing instrumentation and minimizing mishaps in nonsurgical root canal treatment. Abstract Aim To obtain concurrent radicular measurements in the mesiobuccal ( MB ) and mesiolingual ( ML ) canals of mandibular first molars using scanned data of micro‐computed tomography (μ CT ) with novel software. Methodology The scanned data from 37 mandibular first molar mesial roots were reconstructed and analysed with custom‐developed software (Kappa2). For each canal, three‐dimensional (3D) surface models were re‐sliced at 0.1‐mm intervals perpendicular to the central axis. Dentine thicknesses, canal widths and 3D curvatures were measured automatically on each slice. Measurements were analysed statistically with anova for differences at each direction and at different levels of both canals. Results Lateral dentine thicknesses were significantly higher than mesial and distal thicknesses, at all the levels of both canals ( P < 0.001). Mesial thicknesses were significantly higher than distal thicknesses in the coronal third of both canals ( P < 0.001). Thinnest dentine thicknesses were mainly located on the disto‐inside of both canals. Narrowest canal widths were 0.24 ± 0.10 and 0.22 ± 0.09 mm in MB and ML canals, respectively. Canal curvatures were greatest in the apical third of both canals ( P < 0.001), and they were greater in the MB canals than in the ML canals ( P < 0.05). Conclusions Micro‐computed tomography with novel software provided valuable anatomical information for optimizing instrumentation and minimizing mishaps in nonsurgical root canal treatment. Aim To obtain concurrent radicular measurements in the mesiobuccal (MB) and mesiolingual (ML) canals of mandibular first molars using scanned data of micro‐computed tomography (μCT) with novel software. Methodology The scanned data from 37 mandibular first molar mesial roots were reconstructed and analysed with custom‐developed software (Kappa2). For each canal, three‐dimensional (3D) surface models were re‐sliced at 0.1‐mm intervals perpendicular to the central axis. Dentine thicknesses, canal widths and 3D curvatures were measured automatically on each slice. Measurements were analysed statistically with anova for differences at each direction and at different levels of both canals. Results Lateral dentine thicknesses were significantly higher than mesial and distal thicknesses, at all the levels of both canals (P < 0.001). Mesial thicknesses were significantly higher than distal thicknesses in the coronal third of both canals (P < 0.001). Thinnest dentine thicknesses were mainly located on the disto‐inside of both canals. Narrowest canal widths were 0.24 ± 0.10 and 0.22 ± 0.09 mm in MB and ML canals, respectively. Canal curvatures were greatest in the apical third of both canals (P < 0.001), and they were greater in the MB canals than in the ML canals (P < 0.05). Conclusions Micro‐computed tomography with novel software provided valuable anatomical information for optimizing instrumentation and minimizing mishaps in nonsurgical root canal treatment.
Author	Lim, S. M. Perinpanayagam, H. Kum, K. Y. Lee, J. K. Zhu, Q. Ha, B. H. Oh, S. R. Gu, Y. Chang, S. W. Yoo, Y. J.
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Snippet	Aim To obtain concurrent radicular measurements in the mesiobuccal (MB) and mesiolingual (ML) canals of mandibular first molars using scanned data of... To obtain concurrent radicular measurements in the mesiobuccal (MB) and mesiolingual (ML) canals of mandibular first molars using scanned data of... Abstract Aim To obtain concurrent radicular measurements in the mesiobuccal ( MB ) and mesiolingual ( ML ) canals of mandibular first molars using scanned data... AIMTo obtain concurrent radicular measurements in the mesiobuccal (MB) and mesiolingual (ML) canals of mandibular first molars using scanned data of...
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SubjectTerms	canal width dentine thickness Dentistry Humans Kappa 2 Mandible - anatomy & histology mandibular first molar mesial root micro-computed tomography Models, Anatomic Molar - anatomy & histology three-dimensional curvature Tooth Root - anatomy & histology X-Ray Microtomography
Title	Three-dimensional modelling and concurrent measurements of root anatomy in mandibular first molar mesial roots using micro-computed tomography
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