Detection of concha bullosa using deep learning models in cone-beam computed tomography images: a feasibility study

• Published in: Archives of craniofacial surgery Vol. 26; no. 1; pp. 19 - 28
• Main Authors: Shetty, Shishir, Mubarak, Auwalu Saleh, David, Leena R, Jouhari, Mhd Omar Al, Talaat, Wael, Kawas, Sausan Al, Al-Rawi, Natheer, Shetty, Sunaina, Shetty, Mamatha, Ozsahin, Dilber Uzun
• Format: Journal Article
• Language: English
• Published: Korea (South) Korean Cleft Palate-Craniofacial Association 01.02.2025; 대한두개안면성형외과학회
• Subjects: Original; 성형외과학; Deep learning; Diagnostic imaging; Cone-beam computed tomography; Turbinates
• ISSN: 2287-1152; 2287-5603
• DOI: 10.7181/acfs.2024.00283

Background: Pneumatization of turbinates, also known as concha bullosa (CB), is associated with nasal septal deviation and sinonasal pathologies. This study aims to evaluate the performance of deep learning models in detecting CB in coronal cone-beam computed tomography (CBCT) images.Methods: Standardized coronal images were obtained from 203 CBCT scans (83 with CB and 119 without CB) from the radiology archives of a dental teaching hospital. These scans underwent preprocessing through a hybridized contrast enhancement (CE) method using discrete wavelet transform (DWT). Of the 203 CBCT images, 162 were randomly assigned to the training set and 41 to the testing set. Initially, the images were enhanced using a CE technique before being input into pre-trained deep learning models, namely ResNet50, ResNet101, and MobileNet. The features extracted by each model were then flattened and input into a random forest (RF) classifier. In the subsequent phase, the CE technique was refined by incorporating DWT.Results: CE-DWT-ResNet101-RF demonstrated the highest performance, achieving an accuracy of 91.7% and an area under the curve (AUC) of 98%. In contrast, CE-MobileNet-RF recorded the lowest accuracy at 82.46% and an AUC of 92%. The highest precision, recall, and F1 score (all 92%) were observed for CE-DWT-ResNet101-RF.Conclusion: Deep learning models demonstrated high accuracy in detecting CB in CBCT images. However, to confirm these results, further studies involving larger sample sizes and various deep learning models are required.