Deep Learning for Dental Diagnosis: A Novel Approach to Furcation Involvement Detection on Periapical Radiographs
Furcation defects pose a significant challenge in the diagnosis and treatment planning of periodontal diseases. The accurate detection of furcation involvements (FI) on periapical radiographs (PAs) is crucial for the success of periodontal therapy. This research proposes a deep learning-based approa...
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Archīum Ateneo
2023
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ph-ateneo-arc.discs-faculty-pubs-13712024-02-21T03:52:44Z Deep Learning for Dental Diagnosis: A Novel Approach to Furcation Involvement Detection on Periapical Radiographs Mao, Yi Cheng Huang, Yen Cheng Chen, Tsung Yi Li, Kuo Chen Lin, Yuan Jin Liu, Yu Lin Yan, Hong Rong Yang, Yu Jie Chen, Chiung An Chen, Shih Lun Li, Chun Wei Chan, Mei Ling Chuo, Yueh Abu, Patricia Angela R Furcation defects pose a significant challenge in the diagnosis and treatment planning of periodontal diseases. The accurate detection of furcation involvements (FI) on periapical radiographs (PAs) is crucial for the success of periodontal therapy. This research proposes a deep learning-based approach to furcation defect detection using convolutional neural networks (CNN) with an accuracy rate of 95%. This research has undergone a rigorous review by the Institutional Review Board (IRB) and has received accreditation under number 202002030B0C505. A dataset of 300 periapical radiographs of teeth with and without FI were collected and preprocessed to enhance the quality of the images. The efficient and innovative image masking technique used in this research better enhances the contrast between FI symptoms and other areas. Moreover, this technology highlights the region of interest (ROI) for the subsequent CNN models training with a combination of transfer learning and fine-tuning techniques. The proposed segmentation algorithm demonstrates exceptional performance with an overall accuracy up to 94.97%, surpassing other conventional methods. Moreover, in comparison with existing CNN technology for identifying dental problems, this research proposes an improved adaptive threshold preprocessing technique that produces clearer distinctions between teeth and interdental molars. The proposed model achieves impressive results in detecting FI with identification rates ranging from 92.96% to a remarkable 94.97%. These findings suggest that our deep learning approach holds significant potential for improving the accuracy and efficiency of dental diagnosis. Such AI-assisted dental diagnosis has the potential to improve periodontal diagnosis, treatment planning, and patient outcomes. This research demonstrates the feasibility and effectiveness of using deep learning algorithms for furcation defect detection on periapical radiographs and highlights the potential for AI-assisted dental diagnosis. With the improvement of dental abnormality detection, earlier intervention could be enabled and could ultimately lead to improved patient outcomes. 2023-07-01T07:00:00Z text https://archium.ateneo.edu/discs-faculty-pubs/371 https://drive.google.com/file/d/1bgW5CANaf0172EX1PqyazsMgf62v0xKJ/view?usp=sharing Department of Information Systems & Computer Science Faculty Publications Archīum Ateneo CNN deep learning furcation involvement Gaussian high-pass filtering image preprocessing image segmentation periapical radiograph Biomedical Biomedical Engineering and Bioengineering Computer Engineering Electrical and Computer Engineering Engineering |
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CNN deep learning furcation involvement Gaussian high-pass filtering image preprocessing image segmentation periapical radiograph Biomedical Biomedical Engineering and Bioengineering Computer Engineering Electrical and Computer Engineering Engineering |
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CNN deep learning furcation involvement Gaussian high-pass filtering image preprocessing image segmentation periapical radiograph Biomedical Biomedical Engineering and Bioengineering Computer Engineering Electrical and Computer Engineering Engineering Mao, Yi Cheng Huang, Yen Cheng Chen, Tsung Yi Li, Kuo Chen Lin, Yuan Jin Liu, Yu Lin Yan, Hong Rong Yang, Yu Jie Chen, Chiung An Chen, Shih Lun Li, Chun Wei Chan, Mei Ling Chuo, Yueh Abu, Patricia Angela R Deep Learning for Dental Diagnosis: A Novel Approach to Furcation Involvement Detection on Periapical Radiographs |
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Furcation defects pose a significant challenge in the diagnosis and treatment planning of periodontal diseases. The accurate detection of furcation involvements (FI) on periapical radiographs (PAs) is crucial for the success of periodontal therapy. This research proposes a deep learning-based approach to furcation defect detection using convolutional neural networks (CNN) with an accuracy rate of 95%. This research has undergone a rigorous review by the Institutional Review Board (IRB) and has received accreditation under number 202002030B0C505. A dataset of 300 periapical radiographs of teeth with and without FI were collected and preprocessed to enhance the quality of the images. The efficient and innovative image masking technique used in this research better enhances the contrast between FI symptoms and other areas. Moreover, this technology highlights the region of interest (ROI) for the subsequent CNN models training with a combination of transfer learning and fine-tuning techniques. The proposed segmentation algorithm demonstrates exceptional performance with an overall accuracy up to 94.97%, surpassing other conventional methods. Moreover, in comparison with existing CNN technology for identifying dental problems, this research proposes an improved adaptive threshold preprocessing technique that produces clearer distinctions between teeth and interdental molars. The proposed model achieves impressive results in detecting FI with identification rates ranging from 92.96% to a remarkable 94.97%. These findings suggest that our deep learning approach holds significant potential for improving the accuracy and efficiency of dental diagnosis. Such AI-assisted dental diagnosis has the potential to improve periodontal diagnosis, treatment planning, and patient outcomes. This research demonstrates the feasibility and effectiveness of using deep learning algorithms for furcation defect detection on periapical radiographs and highlights the potential for AI-assisted dental diagnosis. With the improvement of dental abnormality detection, earlier intervention could be enabled and could ultimately lead to improved patient outcomes. |
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Mao, Yi Cheng Huang, Yen Cheng Chen, Tsung Yi Li, Kuo Chen Lin, Yuan Jin Liu, Yu Lin Yan, Hong Rong Yang, Yu Jie Chen, Chiung An Chen, Shih Lun Li, Chun Wei Chan, Mei Ling Chuo, Yueh Abu, Patricia Angela R |
| author_facet |
Mao, Yi Cheng Huang, Yen Cheng Chen, Tsung Yi Li, Kuo Chen Lin, Yuan Jin Liu, Yu Lin Yan, Hong Rong Yang, Yu Jie Chen, Chiung An Chen, Shih Lun Li, Chun Wei Chan, Mei Ling Chuo, Yueh Abu, Patricia Angela R |
| author_sort |
Mao, Yi Cheng |
| title |
Deep Learning for Dental Diagnosis: A Novel Approach to Furcation Involvement Detection on Periapical Radiographs |
| title_short |
Deep Learning for Dental Diagnosis: A Novel Approach to Furcation Involvement Detection on Periapical Radiographs |
| title_full |
Deep Learning for Dental Diagnosis: A Novel Approach to Furcation Involvement Detection on Periapical Radiographs |
| title_fullStr |
Deep Learning for Dental Diagnosis: A Novel Approach to Furcation Involvement Detection on Periapical Radiographs |
| title_full_unstemmed |
Deep Learning for Dental Diagnosis: A Novel Approach to Furcation Involvement Detection on Periapical Radiographs |
| title_sort |
deep learning for dental diagnosis: a novel approach to furcation involvement detection on periapical radiographs |
| publisher |
Archīum Ateneo |
| publishDate |
2023 |
| url |
https://archium.ateneo.edu/discs-faculty-pubs/371 https://drive.google.com/file/d/1bgW5CANaf0172EX1PqyazsMgf62v0xKJ/view?usp=sharing |
| _version_ |
1792202611877740544 |