Dentin Thickness of the Danger Zone in the Mesial Roots of the Mandibular Molars: A Cone Beam Computed Tomography Analysis

Bolbolian, Marjan; Ramezani, Masoumeh; Valadabadi, Mohadesehsadat; Alizadeh, Ahad; Tofangchiha, Maryam; Ghonche, Muhammad Reza Asgari; Patil, Shankargouda; Zanza, Alessio; Testarelli, Luca

doi:10.31083/j.fbs1501003

Front. Biosci. (Schol Ed)

2023

DOI: 10.31083/j.fbs1501003

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Dentin Thickness of the Danger Zone in the Mesial Roots of the Mandibular Molars: A Cone Beam Computed Tomography Analysis

Marjan Bolbolian¹,

Masoumeh Ramezani²,

Mohadesehsadat Valadabadi³

et al.

Abstract: Background: Mandibular first molars appear to be the most commonly tooth subjected to a root canal treatment, therefore a better understanding of the anatomy critical zones for resistance of this teeth may decrease the treatment's failure rate. So, this study was conducted to evaluate the dentin thickness of the danger zone in mesial roots of mandibular first molars using cone beam computed tomography in an Iranian population. Methods: In this cross-sectional study, 210 Cone Beam Computed Tomography acquisitio… Show more

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Cited by 2 publications

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“…When an endodontic instrument passes through a curved canal, it tends to work more on the outer portion of the curve, particularly if the instrument is rigid [45][46][47]. Since it is rare to find a perfectly straight canal in nature, with most canals having varying degrees of curvature, especially in the apical portion, a rigid instrument is more likely to cause apical transportation [22,31,32,[34][35][36][37][48][49][50][51][52].…”

mentioning

confidence: 99%

Apical Transportation of Apical Foramen by Different NiTi Alloy Systems: A Systematic Review

Puleio,

Bellezza,

Torre

et al. 2023

Applied Sciences

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Endodontic shaping can lead to canal and apical anatomical alterations, which may compromise the outcome of root canal treatment. The objective of this systematic literature review is to assess whether the use of martensitic endodontic instruments can result in less apical transportation compared to austenitic instruments during endodontic therapy. A search was conducted on PubMed, Ovid MEDLINE, and the Web of Science. The inclusion criteria were in vitro studies comparing apical transportation using endodontic instruments with austenitic or martensitic alloys. The search of the scientific databases yielded 592 results, of which only 10 were eligible for evaluation after screening. Based on the analysis of the selected articles, it can be concluded that martensitic endodontic instruments result in less apical transportation compared to austenitic instruments during the shaping phase of endodontic treatment. This behavior can be attributed to the increased flexibility of martensitic instruments. Further research is warranted to further explore this topic and provide additional evidence supporting the use of martensitic instruments in clinical practice.

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mentioning

confidence: 99%

Apical Transportation of Apical Foramen by Different NiTi Alloy Systems: A Systematic Review

Puleio,

Bellezza,

Torre

et al. 2023

Applied Sciences

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Investigation of the furcation morphology of permanent mandibular first molars by using micro-computed tomography

Qiu,

Tang,

Zhang

et al. 2024

BMC Oral Health

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Background To investigate the anatomic features of the root furcation of permanent mandibular first molars. Methods A total of 50 extracted mandibular first molars (25 two-rooted and 25 three-rooted) were collected and scanned using micro-computed tomography. The digital models of teeth and root canal systems were reconstructed three-dimensionally. The tooth models were displayed in parallel projection mode from buccal and distal views. Screenshots were captured and subsequently analyzed using Image-Pro Plus 6.0 software after calibration. The furcation angle, root trunk length, maximum depth and level of distal root concaves of mesial roots, and length of enamel projections were measured, and the furcation types (classified into type V, type U and type W) were detected. Statistical analysis was performed using the Shapiro-Wilk’s test, one-way analysis of variance, Student’s t-test and Chi-square test. Results The mean furcation angle between the distobuccal (DB) and distolingual (DL) roots (in distal view) was the greatest (59.2°), whereas the furcation angle between the mesial and DL roots (in buccal view) was the smallest (25.4°) among the four furcation angles (all p < 0.05). Regarding the furcation types, bucco-lingual root trunk length, maximum depth and site of the distal root concavities, and enamel projection length, no significant differences were detected between the three- and two-rooted molar groups (all p > 0.05). The frequency of type V was the highest (54.0%), followed by type U (26.0%), and type W had the lowest occurrence rate (20.0%). The mean length of distal root trunk in the three-rooted mandibular molars was significantly greater than that of the buccal/lingual one (3.7 mm vs. 3.0 mm, p < 0.01). The maximum depth of the distal concavities of the mesial roots was on average 0.66 ± 0.19 mm, and the site was located at an average of 2.8 ± 1.3 mm below furcation. The mean length of buccal enamel projections was significantly longer than that of lingual ones (3.1 mm vs. 0.7 mm, p < 0.01). Conclusions The furcation anatomy of the mandibular first molar is complex, and the presence of the DL root may further complicate its topography. A thorough understanding of these anatomic features is essential for successful periodontal treatment.

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Dentin Thickness of the Danger Zone in the Mesial Roots of the Mandibular Molars: A Cone Beam Computed Tomography Analysis

Cited by 2 publications

References 29 publications

Apical Transportation of Apical Foramen by Different NiTi Alloy Systems: A Systematic Review

Apical Transportation of Apical Foramen by Different NiTi Alloy Systems: A Systematic Review

Investigation of the furcation morphology of permanent mandibular first molars by using micro-computed tomography

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