|Year : 2019 | Volume
| Issue : 5 | Page : 458-463
|Cone beam computed tomography analysis of root and root canal morphology of first permanent lower molars in a Middle East subpopulation
Saaid Al Shehadat, Saad Waheb, Saad Wahbi Al Bayatti, Waad Kheder, Khaled Khalaf, Colin A Murray
Preventive and Restorative Dentistry, College of Dental Medicine, University of Sharjah, Sharjah, United Arab Emirates
|Date of Submission||24-Jan-2019|
|Date of Acceptance||03-May-2019|
|Date of Web Publication||27-Aug-2019|
Dr. Saaid Al Shehadat
Preventive and Restorative Dentistry, College of Dental Medicine, University of Sharjah, P. O. Box 27272, Sharjah, United Arab Emirates
Source of Support: None, Conflict of Interest: None
| Abstract|| |
Aim: The aim of this study was to investigate variations in the number of roots and root canals in first permanent lower molars (FPLMs) using cone beam computed tomography (CBCT). Materials and Methods: A total of 640 CBCT images were analyzed using SIDEXIS XG software version 2.62 (Sirona Dental Systems, Bensheim, Germany). The entire root anatomy of FPLMs was investigated in three dimensions and the number of roots, root canals, and the number of canals per root were recorded. Statistical analysis was performed using the Statistical Package for the Social Sciences (SPSS) software, version 24, (IBM Corporation, USA) to determine the relationship between root anatomy and gender, age, or tooth location (right or left side). Results: The majority of FPLMs had two roots (96%), whereas the remaining 32 FPLMs (4%) had three roots. Almost two-thirds of the sample (62.7%) had three root canals, whereas only three cases (0.4%) of the FPLMs had six canals. When comparing bilateral differences in the distribution of root canals, it was determined that a quarter of FPLMs (24.1%) had an unequal number of canals. Moreover, there were differences in the number of additional canals between the mesial and distal roots with 17.5% of the former having three canals as compared with only 0.5% of the distal root. Interestingly, not more than one canal was observed in all additional root cases. No significant differences were observed in the number of canals between males and females or between right and left sides of the examined FPLMs (P > 0.05). Conclusion: Dental clinicians should be aware of the presence of an additional root in 4% of FPLMs, and about a quarter of the cases (27%) had an extra middle mesial canal in the mesial root, which was found to be more prevalent in middle age groups.
Keywords: Cone beam computed tomography, lower molars, morphology, root, root canal
|How to cite this article:|
Al Shehadat S, Waheb S, Al Bayatti SW, Kheder W, Khalaf K, Murray CA. Cone beam computed tomography analysis of root and root canal morphology of first permanent lower molars in a Middle East subpopulation. J Int Soc Prevent Communit Dent 2019;9:458-63
|How to cite this URL:|
Al Shehadat S, Waheb S, Al Bayatti SW, Kheder W, Khalaf K, Murray CA. Cone beam computed tomography analysis of root and root canal morphology of first permanent lower molars in a Middle East subpopulation. J Int Soc Prevent Communit Dent [serial online] 2019 [cited 2020 Jan 24];9:458-63. Available from: http://www.jispcd.org/text.asp?2019/9/5/458/265257
| Introduction|| |
Significant understanding of root morphology and root canal configuration is an essential prerequisite for successful endodontic therapy., The inability to instrument and clean all the root canals during root canal treatment (RCT) can lead to endodontic failure. Therefore, variations in root canal morphology present a serious challenge for the clinician when undertaking traditional RCT., Clinicians must be aware of this complexity and should be able to decide whether it is within their capabilities.
The morphology of first permanent lower molars (FPLMs) has been widely reported within the literature as this is the most frequent tooth requiring RCT procedures. The majority of these teeth have two roots; one mesial and one distal with two or three canals in the mesial root and one, two, or three canals in the distal root. The most common canals in the mesial root are the mesiobuccal and mesiolingual canals. A middle mesial (MM) canal can sometimes be found between the two other mesial canals in a groove known as the developmental groove. When a MM canal is absent, it is believed that a wide anastomosis, known as an isthmus, is present between the two mesial canals. On the basis of previous findings, the incidence of MM canals ranges from 1% to 15%.,
The canals in the distal root of FPLMs are the distal canal (if one canal is present) or if two canals are present, the distobuccal and distolingual. The presence of a third middle distal canal is also occasionally found between the two distal canals. A developmental groove usually connects the orifices of these canals. Another unusual anatomy of FPLMs is the potential presence of an additional distolingual or mesiobuccal third root known as radix entomolaris or radix paramolaris, respectively.
Several in vitro and clinical studies have reported on the morphology of root canals. Studies have investigated macroscopic tooth sections, root canal staining and clearing, polyester resin impressions, transparent tooth specimen, conventional and digital radiographs, or computed tomography techniques.,,
Cone beam computed tomography (CBCT) is an important diagnostic tool in dental practice., It enables clinicians to observe the target area in three different planes (sagittal, coronal, and axial) and thus provides three-dimensional (3D) information. It has the advantage of visualizing the root morphology in 3D and provides accurate information of the canals’ convergence or divergence from each other. The aim of this retrospective study was to investigate the variation in the number of roots and canals in FPLMs in patients attending the University Dental Hospital Sharjah (UDHS) using CBCT imaging. No previous studies have used CBCT to analyze the number of roots and canals within the United Arab Emirates population.
| Materials and Methods|| |
Following UDHS policy, all patients at UDHS sign a consent letter allowing the usage of their X-ray data in research works. Ethical approval (No. REC-17-12-15-01, January 30, 2018) was obtained to use patient records from the UDHS. A total of 640 CBCT images from the archives of UDHS were examined for their suitability for inclusion in this study on FPLM teeth. This was the total number of CBCT exposures taken during 2016 in UDHS. The cases were restricted to permanent dentitions that had at least one FPLM, no distortion of the CBCT image and no previous RCT of the FPLM. The exclusion criteria included patients with primary or mixed dentition, CBCT images with distortion, and cases with bilateral extracted or root canal treated FPLMs. Subsequently, 165 cases were excluded from the study.
The three planes of the CBCT were analyzed carefully using SIDEXIS XG software, version 2.62 (Sirona Dental Systems, Bensheim, Germany). The 3D images were displayed on a 20-inch liquid crystal display monitor of resolution 1280 × 1024 pixels. Image magnification and contrast were adjusted until optimal visualization was achieved. The entire root anatomy from the canal orifice to the root apex was viewed. Observations on the number of roots, root canals, and the number of canals per root were recorded. Other demographic information that was analyzed over a 4-month time frame included the gender and age group [Table 1].
| Statistical Analysis|| |
Analysis was performed using the Statistical Package for the Social Sciences (SPSS) software, version 24 (IBM Corporation, USA) and significance level set at 5%. Descriptive analysis was used to describe the sample and the prevalence of canals and roots of FPLMs. Chi-squared test of independence was used to determine if a significant relationship was present between root anatomy and gender, age, or tooth location (right or left side).
| Results|| |
A total of 807 individual FPLMs were analyzed, with 332 patients having bilateral FPLMs. The number of males (55.8%) was greater than the number of females (44.2%). The distribution of cases with bilateral FPLMs is presented in [Table 1].
Most FPLMs had two roots (96%). Only 32 FPLMs (4%) had three roots [Figure 1]C [Table 2]. FPLMs with one or four roots were not observed in this study. Statistical analysis revealed that the occurrence of number of roots was not associated with gender, age, or tooth location (P > 0.05).
|Figure 1: Different uncommon anatomies in first permanent lower molars (FPLMs). (A) Two canals in the left FPLM (arrows). (B) Three distal canals in left FPLM and two in the right (arrows). (C) Bilateral radix entomolaris (arrows). (D) Bilateral middle mesial canals (five canals in each FPLM, arrows)|
Click here to view
|Table 2: Number of roots present within bilateral first permanent lower molars|
Click here to view
FPLMs with three root canals were shown to be the most prevalent (62.7%), followed by FPLMs with four canals (28.7%), and then with five canals (6.9%). FPLMs with two canals were observed in 10 cases (1.2%), whereas FPLMs with six canals were observed in only three cases (0.4%). The majority of bilateral FPLMs had the same number of canals on both sides (75.9%). Conversely, 24.1% of bilateral FPLMs had an unequal number of canals [Table 2] and [Table 3]. No significant differences in the number of canals were found between age groups, right and left sides, or males and females (P > 0.05).
|Table 3: Number of canals present within bilateral first permanent lower molars|
Click here to view
The distribution of canals by the number of roots is presented in [Table 4]. The mesial root contained one canal [[Figure 1A] in 1.2%, two canals in 80.3%, and three canals in 17.5% of cases [Table 3] [Figure 1]D. The distal root contained one canal in 78.1%, two canals in 20.5%, and three canals in 0.5% of cases [Figure 1]B. The extra root contained only one canal in all observed cases. For two-rooted FPLMs, the most prevalent occurrence was two canals within the mesial and one canal at the distal roots (62.7%); followed by double canals per root (14.8%) and three canals at the mesial and one canal at the distal (11.4%). No significant differences were present in the number of canals between males and females or between right and left sides of the examined mandibles (P > 0.05).
|Table 4: Distribution of canals by the number of roots at mesial and distal (roots)|
Click here to view
| Discussion|| |
CBCT is a useful tool in identifying the morphology of root canal systems. Its accuracy is comparable to the modified canal staining and tooth-clearing technique. CBCT imaging is more accurate than conventional radiographs as it allows for 3D reconstruction and visualization of the external and internal anatomy of teeth. This study has the advantage of using CBCT scanning to examine root and root canal morphology of FPLMs. The investigation was performed in a relatively short time and at lower cost as samples were obtained from the UDHS radiology records. The final number of included cases were much higher than the earlier related studies. Therefore, it was accepted as an appropriate sample size according to the earlier peer review publications.
FPLMs erupt early and thus are more prone to dental caries, endodontic treatment, and possible early extraction. It is important for the clinician to be aware of the variation of root morphology and root canal configuration before commencing root canal therapy to enhance the successful outcome of endodontic treatment and prevent early loss of these teeth.
FPLMs usually have two roots, one located mesially and the other root located distally. The presence of an additional third root has been reported in previous studies. The extra root may be located buccally (known as radix paramolaris) or lingually (known as radix endomolaris or entomolaris). The radix entomolaris root is considered to be a normal morphology variant that can be identified as an Asian trait. It is more common in the Mongoloid rather than in the Caucasoid race.
In this study, the occurrence of the number of roots of FPLMs was independent of gender or sides of the mandible. The likelihood of finding unequal number of roots between the right and left FPLMs was small (2.71%) with the majority of cases having two roots on both mandibular sides (94.58%). If the right FPLM had two roots, there was a weak probability to find three roots on the left FPLM. However, if the right FPLM had three roots, the left FPLM had 64.3% greater odds of having three roots. The finding from this study is in harmony with the studies carried out on Taiwanese and East Coast Malaysian populations, where no difference was found between genders., However, it is in disagreement with some previous studies where the presence of distolingual root was reported to be more prevalent in males on the right side or the left side. The differences in outcomes may be due to different methods of case selection and different sample sizes.
The three-rooted FPLMs were observed in 4% of cases. This incidence is very similar to that established in previous studies conducted on Caucasian (2.2%), Sudanese, and Senegalese (3.0%) patients., However, it was lower than that found in the patients from East Coast of Malaysia (11.9%), and much lower than that found in the East Asian, Western China (25.8%), and Taiwanese (25.3%) populations. It is not clear whether this variation is due to sampling variation, regional differences, or because of ethnic and genetic diversity. Although the percentage of three-rooted FPLMs is small in this study, special attention should be given to such cases during RCT. Failure to detect and treat this additional root may lead to endodontic failure.
In this study, the number of canals per FPLMs ranged between two and six. The higher percentage (62.7%) was for three canals; two located in the mesial root and one located in the distal root. This is in agreement with previous studies. Although the presence of one sole root with only one canal was not detected in this study, it has been reported earlier. The maximum number of canals per root was observed to be three for the mesial root, three for the distal root, and one for the extra third root. However, the presence of four canals in the mesial root and three canals in the distal root has previously been reported., Thus, the number of canals in FPLMs may range from one to seven for two-rooted FPLMs. This emphasizes the importance of searching for additional canals during RCT of mandibular first molars.
The prevalence of four canals in this study population was slightly higher (28.7%) in comparison to that in the East Coast Malaysian study population (22.2%). However, it was much lower than a studied Sudanese population (59%). The higher percentage of four canals cases (50.3%) was observed in FPLMs with two mesial and two distal canals, the next most prevalent was FPLMs with three mesial and one distal canal (39.7%). The lowest number of canals (9%) was found in three-rooted FPLMs with two mesial and one distal canals. The occurrence of two canals in our study (1.2%) was similar to a study conducted on Western China population (1.4%), but lower than that in a study conducted on Kuwaiti (6.1%), or Indian (6.45%) populations. This is also much lower than that reported for the East Coast Malaysian population (23.3%), where the sample size used in the study was significantly lower than that used for this study.
The presence of an MM canal was observed in 17.5% of cases. Interestingly, it was elucidated that the percentage of an MM canal increased gradually by age to reach 26.3% for 31–40 years age group. It then decreased gradually for the older age groups [Figure 2]. This may suggest that the presence of the MM canal is a temporary stage. It might be developed through the deposition of secondary or tertiary dentin in the wide communication area between the two mesial canals. Later, with the progress of dentin deposition, the MM canal will be obliterated and will disappear and thus the prevalence of MM canal tends to decrease in older ages. However, further investigations need to be undertaken to confirm this suggestion. No association was observed for the occurrence of MM canal in FPLMs with gender or side of the mandible.
|Figure 2: Middle Mesial (MM) canal relationship to age. The percentage of observed MM canals increased gradually and reached the highest percentage in the 31–40 years age group, then decreased gradually for older age groups|
Click here to view
| Clinical Significance|| |
The number of roots and root canals and their variety should always be carefully considered when evaluating a preoperative radiograph before RCT procedures.
It is very useful to check the dentin map carefully under good illumination to detect any possible extra canals.
If the patient complains of “spontaneous pain” at any time after root canal pulp extirpation session, the first thing to consider is the presence of an extra root or canal.
| Conclusion|| |
CBCT is a valuable tool to identify additional roots and/or root canals in mandibular molars.
Dental clinicians should be aware of the presence of an extra root in 4% of the FPLMs.
Approximately a quarter of the cases (27%) have an extra MM canal in the mesial root.
The extra MM canal in the mesial root was found to be more prevalent in the middle-aged groups.
Financial support and sponsorship
Conflicts of interest
There are no conflicts of interest.
| References|| |
Senan EM, Alhadainy HA, Genaid TM, Madfa AA Root form and canal morphology of maxillary first premolars of a Yemeni population. BMC Oral Health 2018;18:94.
Haji-Hassani N, Tofangchiha M, Bakhshi M, Mostafaei FS Evaluation of root canal morphology of mandibular incisor using cone beam computed tomography. J Int Oral Health 2016;8:167-71.
Kacharaju KR, Hari P, Yee A, Ngo J, Ismail MF Analysis of mandibular premolars root canal morphology using radiographic and cross-sectional techniques in Malaysian population. Dent Hypotheses 2019;10:14-9.
Baugh D, Wallace J Middle mesial canal of the mandibular first molar: A case report and literature review. J Endod 2004;30:185-6.
Enone LL, Oyapero A, Awotile AO, Ijarogbe O, Akinleye AI, Dahunsi M A preliminary assessment of endodontic difficulty encountered at a tertiary health center in Lagos, Nigeria. J Int Oral Health 2018;10:303-10.
Gutmann JL, FAN B Tooth morphology, isolation, and access. In: Hargreaves KM, Berman LH, editors. Cohen’s Pathways of the Pulp. 11th ed. Philadelphia, PA, USA: Elsevier Health Sciences; 2015. p. 130-208.
De Moor RJ, Calberson FL Root canal treatment in a mandibular second premolar with three root canals. J Endod 2005;31:310-3.
Vertucci FJ Root canal anatomy of the human permanent teeth. Oral Surg Oral Med Oral Pathol 1984;58:589-99.
Sundaresh K, Srinivasan R, Mallikarjuna R, Rajalbandi S Case report: Endodontic management of middle mesial canal of the mandibular molar. BMJ Case Rep 2013;2013:e008261.
Ghoddusi J, Naghavi N, Zarei M, Rohani E Mandibular first molar with four distal canals. J Endod 2007;33:1481-3.
Calberson FL, De Moor RJ, Deroose CA The radix entomolaris and paramolaris: Clinical approach in endodontics. J Endod 2007;33:58-63.
Weng XL, Yu SB, Zhao SL, Wang HG, Mu T, Tang RY, et al
. Root canal morphology of permanent maxillary teeth in the Han nationality in Chinese Guanzhong Area: A new modified root canal staining technique. J Endod 2009;35:651-6.
Martos J, Lubian C, Silveira LFM, Suita de Castro LAS, Ferrer Luque CMF Morphologic analysis of the root apex in human teeth. J Endod 2010;36:664-7.
Chen G, Yao H, Tong C Investigation of the root canal configuration of mandibular first molars in a Taiwan Chinese population. Int Endod J 2009;42:1044-9.
Oliveira SHGd, Moraes LCd, Faig-Leite H, Camargo SEA, Camargo CHR In vitro
incidence of root canal bifurcation in mandibular incisors by radiovisiography. J Appl Oral Sci 2009;17:234-9.
Marceliano-Alves MF, Lima CO, Bastos LG, Bruno AM, Vidaurre F, Coutinho TM, et al
. Mandibular mesial root canal morphology using micro-computed tomography in a Brazilian population. Austral Endod J 2019;45:51-6.
Maghfuri S, Keylani H, Chohan H, Dakkam S, Atiah A, Mashyakhy M Evaluation of root canal morphology of maxillary first premolars by cone beam computed tomography in Saudi Arabian southern region subpopulation: An in vitro
study. Int J Dent 2019;2019:2063943.
Wu YC, Cheng WC, Chung MP, Su CC, Weng PW, Tsai YW, et al
. Complicated root canal morphology of mandibular lateral incisors is associated with the presence of distolingual root in mandibular first molars: A cone-beam computed tomographic study in a Taiwanese population. J Endod 2018;44:73-9.
Kim Y, Roh BD, Shin Y, Kim BS, Choi YL, Ha A Morphological characteristics and classification of mandibular first molars having 2 distal roots or canals: 3-dimensional biometric analysis using cone-beam computed tomography in a Korean population. J Endod 2018;44:46-50.
Wu YC, Cheng WC, Weng PW, Chung MP, Su CC, Chiang HS, et al
. The presence of distolingual root in mandibular first molars is correlated with complicated root canal morphology of mandibular central incisors: A cone-beam computed tomographic study in a Taiwanese population. J Endod 2018;44: 711-6.
Samuel DS, Duraisamy R, Kumar M Cone-beam computed tomography and its applications in dentistry. Drug Invention Today 2019;12:1-4.
Sahoo HS, Kurinji Amalavathy R, Pavani D A case report on endodontic management of a rare Vertucci type III maxillary canine. Case Rep Dent 2019;2019:4154067.
Neelakantan P, Subbarao C, Subbarao CV Comparative evaluation of modified canal staining and clearing technique, cone-beam computed tomography, peripheral quantitative computed tomography, spiral computed tomography, and plain and contrast medium-enhanced digital radiography in studying root canal morphology. J Endod 2010;36:1547-51.
Nair MK, Nair UP Digital and advanced imaging in endodontics: A review. J Endod 2007;33:1-6.
Saber AM, Altoukhi DH, Horaib MF, El-Housseiny AA, Alamoudi NM, Sabbagh HJ Consequences of early extraction of compromised first permanent molar: A systematic review. BMC Oral Health 2018;18:59.
Gulabivala K, Opasanon A, Ng YL, Alavi A Root and canal morphology of Thai mandibular molars. Int Endod J 2002;35:56-62.
Deng PU, Halim MS, Masudi SM, Al-Shehadat S, Ahmad B Cone-beam computed tomography analysis on root and canal morphology of mandibular first permanent molar among multiracial population in East Coast Malaysian population. Eur J Dent 2018;12:410-6.
Huang CC, Chang YC, Chuang MC, Lai TM, Lai JY, Lee BS, et al
. Evaluation of root and canal systems of mandibular first molars in Taiwanese individuals using cone-beam computed tomography. J Formos Med Assoc 2010;109:303-8.
Song JS, Kim SO, Choi BJ, Choi HJ, Son HK, Lee JH Incidence and relationship of an additional root in the mandibular first permanent molar and primary molars. Oral Surg Oral Med Oral Pathol Oral Radiol Endod 2009;107:e56-60.
Martins JNR, Marques D, Mata A, Caramês J Root and root canal morphology of the permanent dentition in a Caucasian population: A cone-beam computed tomography study. Int Endod J 2017;50:1013-26.
Ahmed HA, Abu-bakr NH, Yahia NA, Ibrahim YE Root and canal morphology of permanent mandibular molars in a Sudanese population. Int Endod J 2007;40:766-71.
Sperber GH, Moreau JL Study of the number of roots and canals in Senegalese first permanent mandibular molars. Int Endod J 1998;31:117-22.
Wang Y, Zheng QH, Zhou XD, Tang L, Wang Q, Zheng GN, et al
. Evaluation of the root and canal morphology of mandibular first permanent molars in a western Chinese population by cone-beam computed tomography. J Endod 2010;36:1786-9.
Reeh ES Seven canals in a lower first molar. J Endod 1998;24:497-9.
Mohan K, Hmida SAAB, Alshehadat SA, Halim MS, Ahmed HMA Management of a mandibular first molar with three separate root canals in the distal root. J Conserv Dent 2016;4:22-4.
Zaatar EI, al Anizi SA, al Duwairi Y A study of the dental pulp cavity of mandibular first permanent molars in the Kuwaiti population. J Endod 1998;24:125-7.
Reuben J, Velmurugan N, Kandaswamy D The evaluation of root canal morphology of the mandibular first molar in an Indian population using spiral computed tomography scan: An in vitro
study. J Endod 2008;34:212-5.
[Figure 1], [Figure 2]
[Table 1], [Table 2], [Table 3], [Table 4]
| Article Access Statistics|
| Viewed||294 |
| Printed||25 |
| Emailed||0 |
| PDF Downloaded||44 |
| Comments ||[Add] |