Your search keyword '"mandibular canal"' showing total 21 results

1. A two-stage deep-learning model for determination of the contact of mandibular third molars with the mandibular canal on panoramic radiographs

Author

Parisa Soltani, Fatemeh Sohrabniya, Hossein Mohammad-Rahimi, Mojdeh Mehdizadeh, Seyed Mohammadreza Mousavi, Amirhossein Moaddabi, Seyed Mohammadmahdi Mousavi, Gianrico Spagnuolo, Amirmohammad Yavari, and Falk Schwendicke

Subjects

Artificial Intelligence, Deep learning, Molar, Third, Mandibular canal, Dentistry, RK1-715

Abstract

Abstract Objectives This study aimed to assess the accuracy of a two-stage deep learning (DL) model for (1) detecting mandibular third molars (MTMs) and the mandibular canal (MC), and (2) classifying the anatomical relationship between these structures (contact/no contact) on panoramic radiographs. Method MTMs and MCs were labeled on panoramic radiographs by a calibrated examiner using bounding boxes. Each bounding box contained MTM and MC on one side. The relationship of MTMs with the MC was assessed on CBCT scans by two independent examiners without the knowledge of the condition of MTM and MC on the corresponding panoramic image, and dichotomized as contact/no contact. Data were split into training, validation, and testing sets with a ratio of 80:10:10. Faster R-CNN was used for detecting MTMs and MCs and ResNeXt for classifying their relationship. AP50 and AP75 were used as outcomes for detecting MTMs and MCs, and accuracy, precision, recall, F1-score, and the area-under-the-receiver-operating-characteristics curve (AUROC) were used to assess classification performance. The training and validation of the models were conducted using the Python programming language with the PyTorch framework. Results Three hundred eighty-seven panoramic radiographs were evaluated. MTMs were present bilaterally on 232 and unilaterally on 155 radiographs. In total, 619 images were collected which included MTMs and MCs. AP50 and AP75 indicating accuracy for detecting MTMs and MCs were 0.99 and 0.90 respectively. Classification accuracy, recall, specificity, F1-score, precision, and AUROC values were 0.85, 0.85, 0.93, 0.84, 0.86, and 0.91, respectively. Conclusion DL can detect MTMs and MCs and accurately assess their anatomical relationship on panoramic radiographs.

Published

2024

2. A two-stage deep-learning model for determination of the contact of mandibular third molars with the mandibular canal on panoramic radiographs

Author

Soltani, Parisa, Sohrabniya, Fatemeh, Mohammad-Rahimi, Hossein, Mehdizadeh, Mojdeh, Mohammadreza Mousavi, Seyed, Moaddabi, Amirhossein, Mohammadmahdi Mousavi, Seyed, Spagnuolo, Gianrico, Yavari, Amirmohammad, and Schwendicke, Falk

Published

2024

3. Three-dimensional positional relationship between impacted mandibular third molars and the mandibular canal

Author

Yun Yang, Dong-Yu Bao, Can Ni, and Zhen Li

Subjects

Mandibular canal, Impacted mandibular third molar, Cone beam CT, Surface tomogram, Nerve injury, Dentistry, RK1-715

Abstract

Abstract Objective To observe the three-dimensional positional relationship between impacted mandibular third molars (IMTMs) and mandibular canal close contacts using cone beam computed tomography (CBCT). Methods A total of 101 patients with IMTMs were selected who met the diagnostic criteria for 142 teeth (no bone wall imaging area between IMTMs and the mandibular canal, a high-density bone cortical imaging area only, or a ≦1 mm bone imaging area). The parameters of the rotating CBCT anode were set as follows: 110 kV, 40–50 mA; the focal point and exposure field were set as 0.3 mmh and a high-resolution zoom, respectively; the exposure time and image layer thickness were set as 5.4 s and 0.25 mm. Three-dimensional reconstruction was performed, and the position of the mandibular canal through the IMTM area was observed continuously from the coronal, horizontal and sagittal planes. Results We found that the mandibular canal was interrupted below the third molar (TM) in 85 cases, accounting for 59.86% of all cases. The mandibular canal was located below the buccal and lingual curvatures in 33 and 19 cases, respectively, accounting for 23.23% and 19%. In addition, a small number of mandibular canals were also located on the buccal side of the mandibular molars (2.82%). We also found one case of direct insertion of the mandibular third molar (MTM) into the mandibular canal. In addition, the mandibular canal passed through the IMTM region with 125 close contacts at the roots (88.03%); 14 mandibular canals were in contact with all teeth and 3 were in contact with the crown. Conclusion The use of CBCT can provide a dynamic and comprehensive understanding of the three-dimensional positional relationship of the mandibular alveolar nerve canal passing through the IMTM area, providing a high clinical reference value when extracting IMTMs and reducing the risk of injury to the inferior alveolar nerve.

Published

2023

4. Conservative endodontic microsurgery to protect critical anatomical structures–selective curettage: a case series

Author

Nan Li, Rui Zhang, Weiwei Qiao, and Liuyan Meng

Subjects

Endodontic microsurgery, Mandibular canal, Nasopalatine nerve tube, Selective curettage, Vital teeth., Dentistry, RK1-715

Abstract

Abstract Background Endodontic microsurgery has yielded highly successful outcomes in preserving teeth with persistent or recurrent cases of periapical periodontitis that could not be successfully treated by nonsurgical endodontic approaches. To avoid complications in conditions in which periapical lesions invade anatomical structures such as the nasopalatine nerve tube and mandibular canal, selective curettage has been proposed as an alternative choice of complete curettage in surgery. Case presentation The 8 cases reported herein had undergone root canal treatment and/or retreatment but still presented with symptoms, such as recurring sinus tracts and persistent dull pain. The radiographic examination indicated a large area of radiolucency that was associated with the tooth and had invaded adjacent critical anatomical structures. The patients opted for selective curettage via endodontic microsurgery, and the lesions were histologically confirmed as periapical cysts or granulomas. The follow-up results for one year or more indicated that the affected teeth were clinically asymptomatic and exhibited complete or incomplete healing radiographically. Conclusion This case series provides clinical evidence for the feasibility of selective curettage in endodontic microsurgery, which can avoid complications caused by damage to the adjacent critical anatomical structures.

Published

2023

5. Three-dimensional positional relationship between impacted mandibular third molars and the mandibular canal.

Author

Yang, Yun, Bao, Dong-Yu, Ni, Can, and Li, Zhen

Subjects

DENTAL crowns, IMPACTION of teeth, THREE-dimensional imaging, MANDIBLE, THIRD molars, DESCRIPTIVE statistics, RESEARCH funding, COMPUTED tomography, DATA analysis software

Abstract

Objective: To observe the three-dimensional positional relationship between impacted mandibular third molars (IMTMs) and mandibular canal close contacts using cone beam computed tomography (CBCT). Methods: A total of 101 patients with IMTMs were selected who met the diagnostic criteria for 142 teeth (no bone wall imaging area between IMTMs and the mandibular canal, a high-density bone cortical imaging area only, or a ≦1 mm bone imaging area). The parameters of the rotating CBCT anode were set as follows: 110 kV, 40–50 mA; the focal point and exposure field were set as 0.3 mmh and a high-resolution zoom, respectively; the exposure time and image layer thickness were set as 5.4 s and 0.25 mm. Three-dimensional reconstruction was performed, and the position of the mandibular canal through the IMTM area was observed continuously from the coronal, horizontal and sagittal planes. Results: We found that the mandibular canal was interrupted below the third molar (TM) in 85 cases, accounting for 59.86% of all cases. The mandibular canal was located below the buccal and lingual curvatures in 33 and 19 cases, respectively, accounting for 23.23% and 19%. In addition, a small number of mandibular canals were also located on the buccal side of the mandibular molars (2.82%). We also found one case of direct insertion of the mandibular third molar (MTM) into the mandibular canal. In addition, the mandibular canal passed through the IMTM region with 125 close contacts at the roots (88.03%); 14 mandibular canals were in contact with all teeth and 3 were in contact with the crown. Conclusion: The use of CBCT can provide a dynamic and comprehensive understanding of the three-dimensional positional relationship of the mandibular alveolar nerve canal passing through the IMTM area, providing a high clinical reference value when extracting IMTMs and reducing the risk of injury to the inferior alveolar nerve. [ABSTRACT FROM AUTHOR]

Published

2023

6. Conservative endodontic microsurgery to protect critical anatomical structures–selective curettage: a case series.

Author

Li, Nan, Zhang, Rui, Qiao, Weiwei, and Meng, Liuyan

Subjects

GRANULOMA, PERIODONTIUM, MICROSURGERY, PERIODONTITIS, PERIAPICAL diseases, CYSTS (Pathology), CURETTAGE, RETROSPECTIVE studies, ACQUISITION of data, TREATMENT effectiveness, CASE studies, MEDICAL records, RESEARCH funding, ENDODONTICS

Abstract

Background: Endodontic microsurgery has yielded highly successful outcomes in preserving teeth with persistent or recurrent cases of periapical periodontitis that could not be successfully treated by nonsurgical endodontic approaches. To avoid complications in conditions in which periapical lesions invade anatomical structures such as the nasopalatine nerve tube and mandibular canal, selective curettage has been proposed as an alternative choice of complete curettage in surgery. Case presentation: The 8 cases reported herein had undergone root canal treatment and/or retreatment but still presented with symptoms, such as recurring sinus tracts and persistent dull pain. The radiographic examination indicated a large area of radiolucency that was associated with the tooth and had invaded adjacent critical anatomical structures. The patients opted for selective curettage via endodontic microsurgery, and the lesions were histologically confirmed as periapical cysts or granulomas. The follow-up results for one year or more indicated that the affected teeth were clinically asymptomatic and exhibited complete or incomplete healing radiographically. Conclusion: This case series provides clinical evidence for the feasibility of selective curettage in endodontic microsurgery, which can avoid complications caused by damage to the adjacent critical anatomical structures. [ABSTRACT FROM AUTHOR]

Published

2023

7. The three-dimensional stable mandibular landmarks in patients between the ages of 12.5 and 17.1 years

Author

Gui Chen, Mona Al Awadi, David William Chambers, Manuel O. Lagravère-Vich, Tianmin Xu, and Heesoo Oh

Subjects

Cone-beam CT, Mandibular growth, Stable landmarks, Symphysis, Mandibular canal, Dentistry, RK1-715

Abstract

Abstract Background With the aid of implants, Björk identified two-dimensional mandibular stable structures in cephalograms during facial growth. However, we do not know what the three-dimensional stable structures are with certainty. The purpose of this study was to identify the most stable mandibular landmarks in growing patients using three-dimensional images. Methods The sample was comprised of two cone-beam computed tomography (CBCT) scans taken about 4.6 years apart in 20 growing patients between the ages of 12.5 (T1) and 17.1 years (T2). After head orientation, landmarks were located on the chin (Pog), internal symphysis (Points C, D and E), and mandibular canals, which included the mental foramina (MF and MFA) and mandibular foramina (MdF). The linear distance change between Point C and these landmarks was measured on each CBCT to test stability through time. The reliability of the suggested stable landmarks was also evaluated. Results The total distance changes between Point C and points D, E, Pog, MF, and MFA were all less than 1.0 mm from T1 to T2. The reliability measures of these landmarks, which were measured by the Cronbach alpha, were above 0.94 in all three dimensions for each landmark. From T1 to T2, the distance changes from Point C to the right and left mandibular foramina were 3.39 ± 3.29 mm and 3.03 ± 2.83 mm, respectively. Conclusions During a growth period that averaged 4.6 years, ranging from 11.2 to 19.8 years old, the structures that appeared relatively stable and could be used in mandibular regional superimpositions included Pog, landmarks on the inferior part of the internal symphysis, and the mental foramen. The centers of the mandibular foramina and the starting points of the mandibular canal underwent significant changes in the transverse and sagittal dimensions.

Published

2020

8. The reliability of surgeons to avoid traumatic insertion of dental implants into high-risk regions: a panoramic radiograph study

Author

Firas A. Jamil, Jamal A. Mohammed, Thair A. Hasan, and Mohammed G. Rzoqi

Subjects

Panoramic radiographs, Dental implant, Maxillary sinus, Mandibular canal, Inferior alveolar nerve, Dentistry, RK1-715

Abstract

Abstract Background The posterior regions of the jaws usually represent a significant risk for implant surgery. A non-valid assessment of the available bone height may lead to either perforation of the maxillary sinus floor or encroachment of the inferior alveolar nerve and consequently to implant failure. This study aimed to evaluate the reliability of surgeon’s decision in appraising the appropriate implant length, in respect to vital anatomical structures, using panoramic radiographs. Methods Only implants that are inserted in relation to the maxillary sinus (MS) or the mandibular canal (MC) were enrolled (first premolars [1P], second premolars [2P], first molars [1M], and second molars [2M]). All preoperative panoramic radiographs were evaluated under standard conditions. The postoperative estimation (under/over) was determined depending on the available bone height (ABH) measured from the apical end of the implant to the floor of the MS and the roof of the MC using cone beam computed tomography (CBCT). Any complication or side effect that associated with overestimated implants insertion was recorded. Results The study sample included 73 patients (predominantly females) who had consecutively received 148 implants, of which 68 were inserted in the posterior maxilla and 80 in the posterior mandible. Underestimation was recorded in 93.2% of the measurements. The remaining bone height after implants insertion was

Published

2020

9. Determination of mandibular morphology in a TURKISH population with Down syndrome using panoramic radiography

Author

Samed Satir

Subjects

Mandibular canal, Mandibular foramen, Down syndrome, Dentistry, RK1-715

Abstract

Abstract Background Down syndrome (DS) is by far the most common known chromosomal disorder. Some characteristic features of DS are generalised growth deficiency, craniofacial abnormalities such as mandibular prognathism and underdevelopment of the midfacial region, dental abnormalities such as taurodontism and hypodontia. Individuals with DS have an increased prevalence of periodontal disease compared with age-matched control patients. The aim of the present study is to determine the morphologic features of the mandible among individuals with DS. Methods Thirty-four DS patients and thirty four age- and gender-matched control subjects underwent panoramic radiography, which included measurement of the mandibular canal (MC), the mandibular foramen (MF), the mandibular ramus (MR), the distance from the MC to the mandibular lower border (C-MLB), and the distance between the MC and the alveolar crest upper limit (C-AUL). Patients were separated into two groups based on age: < 15 (n = 15) and ≥ 15 (n = 19). In order to determine whether the MF, MR, MC, C-AUL, and C-MLB scores differed according to the groups (DS and control), one-way multivariate analysis of covariance (MANCOVA) was applied in which gender and age were taken as covariates. Results When the main effect according to the group was examined separately according to each measurement, the MF in the DS group was high with a moderate effect (F = 9207; p = 0.003). MR (F = 40,518; p 0.05). Conclusions Mandibular canal morphology may exhibit anatomical variations in DS. The alveolar bone level may differ from non-DS due to growth development retardation and/or periodontal diseases.

Published

2019

10. Endoscopically-assisted extraction of broken roots or fragments within the mandibular canal: a retrospective case series study.

Author

Jiang J, Chen K, Wang E, Duan D, and Xu X

Subjects

Humans, Retrospective Studies, Hypesthesia complications, Hypesthesia surgery, Mandibular Canal, Mandible surgery, Mandibular Nerve, Tooth Extraction adverse effects, Tooth Extraction methods, Molar, Third surgery, Radiography, Panoramic methods, Trigeminal Nerve Injuries etiology, Tooth, Impacted surgery

Abstract

Purpose: To assess the impact of endoscope-assisted fractured roots or fragments extraction within the mandibular canal, along with quantitative sensory testing (QST) alterations in the inferior alveolar nerve (IAN)., Methods: Six patients with lower lip numbness following mandibular third molar extraction were selected. All patients had broken roots or fragments within the mandibular canal that were extracted under real-time endoscopic assistance. Follow-up assessments were conducted on postoperative days 1, 7, and 35, including a standardized QST of the lower lip skin., Results: The average surgical duration was 32.5 min, with the IAN exposed in all cases. Two of the patient exhibited complete recovery of lower lip numbness, three experienced symptom improvement, and one patient remained unaffected 35 days after the surgery. Preoperative QST results showed that the mechanical detection and pain thresholds on the affected side were significantly higher than those on the healthy side, but improved significantly by postoperative day 7 in five patients, and returned to baseline in two patients on day 35. There were no significant differences in the remaining QST parameters., Conclusions: All endoscopic surgical procedures were successfully completed without any additional postoperative complications. There were no cases of deterioration of IAN injury, and lower lip numbness recovered in the majority of cases. Endoscopy allowed direct visualization and examination of the affected nerve, facilitating a comprehensive analysis of the IAN., (© 2024. The Author(s).)

Published

2024

11. The three-dimensional stable mandibular landmarks in patients between the ages of 12.5 and 17.1 years.

Author

Chen, Gui, Al Awadi, Mona, Chambers, David William, Lagravère-Vich, Manuel O., Xu, Tianmin, and Oh, Heesoo

Subjects

CRANIAL radiography, CHIN, COMPUTED tomography, STATISTICAL correlation, MANDIBLE, RELIABILITY (Personality trait), THREE-dimensional imaging, STATISTICAL reliability, ADOLESCENCE

Abstract

Background: With the aid of implants, Björk identified two-dimensional mandibular stable structures in cephalograms during facial growth. However, we do not know what the three-dimensional stable structures are with certainty. The purpose of this study was to identify the most stable mandibular landmarks in growing patients using three-dimensional images. Methods: The sample was comprised of two cone-beam computed tomography (CBCT) scans taken about 4.6 years apart in 20 growing patients between the ages of 12.5 (T1) and 17.1 years (T2). After head orientation, landmarks were located on the chin (Pog), internal symphysis (Points C, D and E), and mandibular canals, which included the mental foramina (MF and MFA) and mandibular foramina (MdF). The linear distance change between Point C and these landmarks was measured on each CBCT to test stability through time. The reliability of the suggested stable landmarks was also evaluated. Results: The total distance changes between Point C and points D, E, Pog, MF, and MFA were all less than 1.0 mm from T1 to T2. The reliability measures of these landmarks, which were measured by the Cronbach alpha, were above 0.94 in all three dimensions for each landmark. From T1 to T2, the distance changes from Point C to the right and left mandibular foramina were 3.39 ± 3.29 mm and 3.03 ± 2.83 mm, respectively. Conclusions: During a growth period that averaged 4.6 years, ranging from 11.2 to 19.8 years old, the structures that appeared relatively stable and could be used in mandibular regional superimpositions included Pog, landmarks on the inferior part of the internal symphysis, and the mental foramen. The centers of the mandibular foramina and the starting points of the mandibular canal underwent significant changes in the transverse and sagittal dimensions. [ABSTRACT FROM AUTHOR]

Published

2020

12. The reliability of surgeons to avoid traumatic insertion of dental implants into high-risk regions: a panoramic radiograph study.

Author

Jamil, Firas A., Mohammed, Jamal A., Hasan, Thair A., and Rzoqi, Mohammed G.

Subjects

MANDIBLE surgery, MAXILLARY sinus surgery, PREVENTION of injury, COMPUTED tomography, DENTAL implants, MANDIBLE, MAXILLARY sinus, POSTOPERATIVE period, PANORAMIC radiography, SURGEONS, TRIGEMINAL nerve, DECISION making in clinical medicine, PARESTHESIA, PREOPERATIVE period

Abstract

Background: The posterior regions of the jaws usually represent a significant risk for implant surgery. A non-valid assessment of the available bone height may lead to either perforation of the maxillary sinus floor or encroachment of the inferior alveolar nerve and consequently to implant failure. This study aimed to evaluate the reliability of surgeon's decision in appraising the appropriate implant length, in respect to vital anatomical structures, using panoramic radiographs. Methods: Only implants that are inserted in relation to the maxillary sinus (MS) or the mandibular canal (MC) were enrolled (first premolars [1P], second premolars [2P], first molars [1M], and second molars [2M]). All preoperative panoramic radiographs were evaluated under standard conditions. The postoperative estimation (under/over) was determined depending on the available bone height (ABH) measured from the apical end of the implant to the floor of the MS and the roof of the MC using cone beam computed tomography (CBCT). Any complication or side effect that associated with overestimated implants insertion was recorded. Results: The study sample included 73 patients (predominantly females) who had consecutively received 148 implants, of which 68 were inserted in the posterior maxilla and 80 in the posterior mandible. Underestimation was recorded in 93.2% of the measurements. The remaining bone height after implants insertion was < 2 mm in the majority of underestimated cases (73.9%); they were significantly (P < 0.01) more than sites with remaining bone ≥ 2 mm (26.1%). In the posterior mandible, overestimation was significantly higher than posterior maxilla. Five cases with transient paresthesia were reported in the mandibular overestimated implants. Conclusions: This study specified that surgeon's choice of implants length, based on panoramic radiographs, was reliable regarding the incapability to insert implants with further length in the majority of underestimated cases, the low percent of overestimated measurements, and the minor associated complications. [ABSTRACT FROM AUTHOR]

Published

2020

13. Do metal artifact reduction algorithms influence the detection of implant-related injuries to the inferior alveolar canal in CBCT images?

Author

Soltani P, Devlin H, Etemadi Sh M, Rengo C, Spagnuolo G, and Baghaei K

Subjects

Humans, Mandibular Canal, Artifacts, Cone-Beam Computed Tomography, Algorithms, Spiral Cone-Beam Computed Tomography, Dental Implants

Abstract

Background: The routine application of dental implants for replacing missing teeth has revolutionized restorative and prosthetic dentistry. However, cone beam computed tomography (CBCT) evaluations of structures adjacent to the implants are limited by metal artifacts. There are several methods for reducing metal artifacts, but this remains a challenging task. This study aimed to examine the effectiveness of metal artifact reduction (MAR) algorithms in identifying injuries of implants to the inferior alveolar canal in CBCT images., Method: In this in vitro study, mono-cortical bone windows were created and the inferior alveolar canal was revealed. Using 36 implants, pilot drill and penetration damage of the implant tip into the canal was simulated and compared to the control implants with distance from the canal. CBCT images were evaluated by four experienced observers with and without the MAR algorithm and compared to direct vision as the gold standard. The values of accuracy, sensitivity, and specificity were obtained and compared by receiver operating characteristic (ROC) curve (α = 0.05)., Result: The area under the ROC curve values for detection of pilot drill injuries varied between 0.840-0.917 and 0.639-0.854 in the active and inactive MAR conditions, respectively. The increase in ROC area was only significant for one of the observers (P = 0.010). For diagnosing penetrative injuries, the area under the ROC curve values was between 0.990-1.000 and 0.722-1.000 in the active and inactive MAR conditions, respectively. The improvement of ROC curve values in active MAR mode was only significant for one of the observers (P = 0.006)., Conclusion: Activation of MAR improved the diagnostic values of CBCT images in detecting both types of implant-related injuries to the inferior alveolar canal. However, for most observers, this increase was not statistically significant., (© 2024. The Author(s).)

Published

2024

14. Minimum size and positioning of imaging field for CBCT-scans of impacted lower third molars: a retrospective study

Author

Anne-Mari Ilo, Marja Ekholm, Elmira Pakbaznejad Esmaeili, Janna Waltimo-Sirén, Clinicum, Department of Oral and Maxillofacial Diseases, HUS Head and Neck Center, and Janna C Waltimo-Siren / Principal Investigator

Subjects

Adult, Third molar imaging, Tooth, Impacted, Cone-beam computed tomography, RK1-715, Mandible, Spiral Cone-Beam Computed Tomography, 030206 dentistry, 3126 Surgery, anesthesiology, intensive care, radiology, equipment and supplies, 313 Dentistry, 030218 nuclear medicine & medical imaging, Mandibular Canal, 03 medical and health sciences, 0302 clinical medicine, stomatognathic system, Dentistry, QUALITY, Humans, Indication-specific imaging field, Molar, Third, Indication-specific field-of-view placement, General Dentistry, Retrospective Studies, Research Article

Abstract

Background Cone-beam Computed Tomography (CBCT) is widely used for preoperative 3D imaging of lower third molars. Hence, for this imaging indication, the present study aimed to define the minimum field-of-view (FOV) size and its optimum placement, to decrease radiation exposure, and highlight the need of computer-assisted FOV centering technique for dental CBCT devices. To facilitate proper placement of image field, lower second molar was chosen as reference. Methods The retrospective study included 50 CBCT-scans of 46 patients with mean age of 34 years. Based on the lower second molar, a three-dimensional coordinate was formed and the location of mandibular canal (MC) and the dimensions and locations of the lower third molars, and possible associated pathological findings were assessed. Accordingly, the FOV size and position for third-molar imaging were optimized, while ensuring encompassment of all relevant structures. Results The minimum cylindrical volume, covering lower third molars and MC, was 32.1 (diameter) × 31.6 (height) mm, placed in relation to the second molar crown, top 2.2 mm above cusp tips, anterior edge 6.7 mm in the front of the most distal point of the crown, and lingual edge 7.9 mm on the medial side of the lingual wall. Conclusions The optimized FOV for lower third molars was smaller than common standard small FOVs. We recommend using FOV volume 3.5∅ × 3.5 cm for third molars without associated pathology. Accurate FOV protocols are essential for development of new CBCT-devices with computer-assisted and indication-specific FOV placement.

Published

2021

15. Automatic classification of 3D positional relationship between mandibular third molar and inferior alveolar canal using a distance-aware network.

Author

Chun SY, Kang YH, Yang S, Kang SR, Lee SJ, Kim JM, Kim JE, Huh KH, Lee SS, Heo MS, and Yi WJ

Subjects

Humans, Mandible diagnostic imaging, Molar, Tongue, Cone-Beam Computed Tomography methods, Mandibular Canal, Molar, Third diagnostic imaging

Abstract

The purpose of this study was to automatically classify the three-dimensional (3D) positional relationship between an impacted mandibular third molar (M3) and the inferior alveolar canal (MC) using a distance-aware network in cone-beam CT (CBCT) images. We developed a network consisting of cascaded stages of segmentation and classification for the buccal-lingual relationship between the M3 and the MC. The M3 and the MC were simultaneously segmented using Dense121 U-Net in the segmentation stage, and their buccal-lingual relationship was automatically classified using a 3D distance-aware network with the multichannel inputs of the original CBCT image and the signed distance map (SDM) generated from the segmentation in the classification stage. The Dense121 U-Net achieved the highest average precision of 0.87, 0.96, and 0.94 in the segmentation of the M3, the MC, and both together, respectively. The 3D distance-aware classification network of the Dense121 U-Net with the input of both the CBCT image and the SDM showed the highest performance of accuracy, sensitivity, specificity, and area under the receiver operating characteristic curve, each of which had a value of 1.00. The SDM generated from the segmentation mask significantly contributed to increasing the accuracy of the classification network. The proposed distance-aware network demonstrated high accuracy in the automatic classification of the 3D positional relationship between the M3 and the MC by learning anatomical and geometrical information from the CBCT images., (© 2023. BioMed Central Ltd., part of Springer Nature.)

Published

2023

16. Accurate mandibular canal segmentation of dental CBCT using a two-stage 3D-UNet based segmentation framework.

Author

Lin X, Xin W, Huang J, Jing Y, Liu P, Han J, and Ji J

Subjects

Humans, Mandibular Canal, Dentists, Professional Role, Cone-Beam Computed Tomography methods, Image Processing, Computer-Assisted methods, Spiral Cone-Beam Computed Tomography

Abstract

Objectives: The objective of this study is to develop a deep learning (DL) model for fast and accurate mandibular canal (MC) segmentation on cone beam computed tomography (CBCT)., Methods: A total of 220 CBCT scans from dentate subjects needing oral surgery were used in this study. The segmentation ground truth is annotated and reviewed by two senior dentists. All patients were randomly splitted into a training dataset (n = 132), a validation dataset (n = 44) and a test dataset (n = 44). We proposed a two-stage 3D-UNet based segmentation framework for automated MC segmentation on CBCT. The Dice Similarity Coefficient (DSC) and 95% Hausdorff Distance (95% HD) were used as the evaluation metrics for the segmentation model., Results: The two-stage 3D-UNet model successfully segmented the MC on CBCT images. In the test dataset, the mean DSC was 0.875 ± 0.045 and the mean 95% HD was 0.442 ± 0.379., Conclusions: This automatic DL method might aid in the detection of MC and assist dental practitioners to set up treatment plans for oral surgery evolved MC., (© 2023. BioMed Central Ltd., part of Springer Nature.)

Published

2023

17. Identification of the inferior alveolar canal using cone-beam computed tomography vs. panoramic radiography: a retrospective comparative study.

Author

Karameh R, Abu-Ta'a MF, and Beshtawi KR

Subjects

Humans, Radiography, Panoramic methods, Retrospective Studies, Cross-Sectional Studies, Mandible diagnostic imaging, Cone-Beam Computed Tomography methods, Molar, Third, Mandibular Canal, Tooth, Impacted

Abstract

Background: This study aims at evaluating the visibility levels of the inferior alveolar canal (IAC) at different mandibular sites using panoramic (conventional & CBCT reformatted) and CBCT coronal views in a sample of a Palestinian population., Methods: The panoramic (conventional [CP] & CBCT reformatted [CRP]) and CBCT coronal views (CCV) of 103 patients (206 records, right and left sides) were analyzed. The visibility of IAC at five sites extending from the first premolar to the third mandibular molar region was evaluated visually (and compared among the radiographic views) as clearly visible, probably visible, invisible/poorly visible, or not present at the examined site. On CCV, the maximum dimension of the IAC (MD), the vertical distance (VD) between the mandibular cortex and IAC, and the horizontal position (HP) of the IAC were noted. Statistical significance in the differences and relationships of the variables was tested using several statistical tests., Results: There was a statistically significant relationship between the radiography modality (CP, CRP, CCV) and the visibility level of IAC (assessed in scores) at the five mandibular sites. When assessed on CP, CRP, and CCV, the IAC was clearly visible at all sites in 40.4%, 30.9%, and 39.6%, respectively, while being invisible/poorly visible in 27.5%, 38.9%, and 7.2% for the same views, respectively. The mean values of MD and VD were 3.61 mm and 8.48 mm, respectively., Conclusion: Different radiographic modalities would characterize the IAC's structure in different qualities. Superior visibility levels were obtained interchangeably using CBCT cross-sectional views and conventional panorama at different sites compared to CBCT reformatted panorama. The IACs visibility was noted to improve at their distal aspects irrespective of the radiographic modality used. Gender -but not age- was a significant factor in the visibility level of IAC at only two mandibular sites., (© 2023. The Author(s).)

Published

2023

18. Evaluating the presence of IAN injury in patients with juxta-apical radiolucency after third molar surgery: a retrospective cohort study

Author

Mahvash Hasani, Abdolaziz Haghnegahdar, Nasim Razavi, and Motahhareh Zarifi

Subjects

Molar, Cone beam computed tomography, Juxta-apical radiolucency, Radiography, Radiodensity, Mandibular canal, Mandible, Inferior alveolar nerve, stomatognathic system, Radiography, Panoramic, medicine, Humans, General Dentistry, reproductive and urinary physiology, Retrospective Studies, Orthodontics, business.industry, Research, Cone-beam computed tomography, Tooth, Impacted, RK1-715, Nerve injury, equipment and supplies, female genital diseases and pregnancy complications, stomatognathic diseases, medicine.anatomical_structure, Dentistry, IAN injury, Oral and maxillofacial surgery, Molar, Third, medicine.symptom, business

Abstract

Background Juxta-apical radiolucency (JAR) has been presented as a radiographic sign, suggestive of the IAN injury through third molar surgery. This study aimed to evaluate the relation of JAR with IAN injury in cone-beam computed tomography (CBCT) images and to determine whether the presence of JAR is related to tooth angulation, proximity to the mandibular canal, position to the IAN, and thinning of the cortical plates. Methods Of an initial sample of 545 mandibular third molars, a total of 75 JAR+ and 75 JAR− teeth were evaluated by CBCT. We assessed the relationship between the presence of JAR in cone-beam computed tomography (CBCT) images and the presence of IAN injury after mandibular third molar surgeries. Moreover, we investigated whether the presence of IAN injury is related to tooth angulation, proximity to the mandibular canal, position to the IAN, and thinning of the cortical plates. Descriptive statistics, Chi-square test, and Fisher’s exact test were performed for statistical analysis. Results A significant relationship was found between JAR and temporary IAN injury (P = 0.036). However, there was no case of permanent IAN injury. IAN injury showed no significant relationship with the tooth angulation, position to IAN and proximity to the mandibular canal, lingual cortical plate thinning, sex, and age. Conclusions JAR is generally in contact with the mandibular canal, and some degree of cortical thinning can be found in most cases. In this study, JAR was significantly related to temporary IAN injury. JAR may increase the risk of nerve injury during the surgical removal of third molars.

Published

2021

19. The three-dimensional stable mandibular landmarks in patients between the ages of 12.5 and 17.1 years

Author

Mona Al Awadi, Tianmin Xu, Heesoo Oh, Gui Chen, Manuel Lagravere-Vich, and David W Chambers

Subjects

Adult, Adolescent, Symphysis, Mandibular canal, Computed tomography, Mandible, Linear distance, Mental foramen, Young Adult, 03 medical and health sciences, Imaging, Three-Dimensional, 0302 clinical medicine, stomatognathic system, Humans, Medicine, In patient, Child, General Dentistry, Orthodontics, Cone-beam CT, Mandibular growth, medicine.diagnostic_test, business.industry, Reproducibility of Results, 030206 dentistry, Cone-Beam Computed Tomography, Chin, Sagittal plane, lcsh:RK1-715, medicine.anatomical_structure, lcsh:Dentistry, Stable landmarks, Anatomic Landmarks, business, psychological phenomena and processes, 030217 neurology & neurosurgery, Research Article

Abstract

Background With the aid of implants, Björk identified two-dimensional mandibular stable structures in cephalograms during facial growth. However, we do not know what the three-dimensional stable structures are with certainty. The purpose of this study was to identify the most stable mandibular landmarks in growing patients using three-dimensional images. Methods The sample was comprised of two cone-beam computed tomography (CBCT) scans taken about 4.6 years apart in 20 growing patients between the ages of 12.5 (T1) and 17.1 years (T2). After head orientation, landmarks were located on the chin (Pog), internal symphysis (Points C, D and E), and mandibular canals, which included the mental foramina (MF and MFA) and mandibular foramina (MdF). The linear distance change between Point C and these landmarks was measured on each CBCT to test stability through time. The reliability of the suggested stable landmarks was also evaluated. Results The total distance changes between Point C and points D, E, Pog, MF, and MFA were all less than 1.0 mm from T1 to T2. The reliability measures of these landmarks, which were measured by the Cronbach alpha, were above 0.94 in all three dimensions for each landmark. From T1 to T2, the distance changes from Point C to the right and left mandibular foramina were 3.39 ± 3.29 mm and 3.03 ± 2.83 mm, respectively. Conclusions During a growth period that averaged 4.6 years, ranging from 11.2 to 19.8 years old, the structures that appeared relatively stable and could be used in mandibular regional superimpositions included Pog, landmarks on the inferior part of the internal symphysis, and the mental foramen. The centers of the mandibular foramina and the starting points of the mandibular canal underwent significant changes in the transverse and sagittal dimensions.

Published

2020

20. Determination of mandibular morphology in a TURKISH population with Down syndrome using panoramic radiography

Author

Satir, Samed

Published

2019

21. Minimum size and positioning of imaging field for CBCT-scans of impacted lower third molars: a retrospective study.

Author

Ilo AM, Ekholm M, Pakbaznejad Esmaeili E, and Waltimo-Sirén J

Subjects

Adult, Cone-Beam Computed Tomography, Humans, Mandible diagnostic imaging, Mandibular Canal, Molar, Third diagnostic imaging, Retrospective Studies, Spiral Cone-Beam Computed Tomography, Tooth, Impacted diagnostic imaging

Abstract

Background: Cone-beam Computed Tomography (CBCT) is widely used for preoperative 3D imaging of lower third molars. Hence, for this imaging indication, the present study aimed to define the minimum field-of-view (FOV) size and its optimum placement, to decrease radiation exposure, and highlight the need of computer-assisted FOV centering technique for dental CBCT devices. To facilitate proper placement of image field, lower second molar was chosen as reference., Methods: The retrospective study included 50 CBCT-scans of 46 patients with mean age of 34 years. Based on the lower second molar, a three-dimensional coordinate was formed and the location of mandibular canal (MC) and the dimensions and locations of the lower third molars, and possible associated pathological findings were assessed. Accordingly, the FOV size and position for third-molar imaging were optimized, while ensuring encompassment of all relevant structures., Results: The minimum cylindrical volume, covering lower third molars and MC, was 32.1 (diameter) × 31.6 (height) mm, placed in relation to the second molar crown, top 2.2 mm above cusp tips, anterior edge 6.7 mm in the front of the most distal point of the crown, and lingual edge 7.9 mm on the medial side of the lingual wall., Conclusions: The optimized FOV for lower third molars was smaller than common standard small FOVs. We recommend using FOV volume 3.5∅ × 3.5 cm for third molars without associated pathology. Accurate FOV protocols are essential for development of new CBCT-devices with computer-assisted and indication-specific FOV placement., (© 2021. The Author(s).)

Published

2021