Comparison Of Artificial Intelligence-Based Chest CT Emphysema Quantification to Pulmonary Function Tests
Isaac, S., Mohamed, A., Abbas, S., Daif, M. (2023). Comparison Of Artificial Intelligence-Based Chest CT Emphysema Quantification to Pulmonary Function Tests. EKB Journal Management System, 74(4), 1013-1024. doi: 10.21608/asmj.2023.234107.1166
Sarah Raafat Isaac; Ahmed Mostafa Mohamed; Sherif Nabil Abbas; Marwa Sayed Daif. "Comparison Of Artificial Intelligence-Based Chest CT Emphysema Quantification to Pulmonary Function Tests". EKB Journal Management System, 74, 4, 2023, 1013-1024. doi: 10.21608/asmj.2023.234107.1166
Isaac, S., Mohamed, A., Abbas, S., Daif, M. (2023). 'Comparison Of Artificial Intelligence-Based Chest CT Emphysema Quantification to Pulmonary Function Tests', EKB Journal Management System, 74(4), pp. 1013-1024. doi: 10.21608/asmj.2023.234107.1166
Isaac, S., Mohamed, A., Abbas, S., Daif, M. Comparison Of Artificial Intelligence-Based Chest CT Emphysema Quantification to Pulmonary Function Tests. EKB Journal Management System, 2023; 74(4): 1013-1024. doi: 10.21608/asmj.2023.234107.1166

Comparison Of Artificial Intelligence-Based Chest CT Emphysema Quantification to Pulmonary Function Tests

Ain Shams Medical Journal
Volume 74, Issue 4, December 2023, Page 1013-1024  XML PDF (554.28 K)
Document Type: Original Article
DOI: 10.21608/asmj.2023.234107.1166
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Authors
Sarah Raafat Isaac email orcid 1; Ahmed Mostafa Mohamed2; Sherif Nabil Abbas3; Marwa Sayed Daiforcid 4
1Department of radiodiagnosis, Faculty of Medicine, Ain Shams University, Cairo, Egypt
2Department of Radiodiagnosis, faculty of medicine, Ain shams university, Cairo, Egypt
3Department of Radiodiagnosis, Faculty of Medicine ,Ain Shams University, Cairo, Egypt.
4Department of chest diseases, Faculty of Medicine, Ain Shams University, Cairo , Egypt.
Abstract
Background: Chronic obstructive pulmonary disease is caused by small-airway disease and emphysema. Although pulmonary function tests (PFT) measure airflow obstruction, they can't differentiate between airflow limitation and emphysema. Computed Tomography (CT) can be used to identify patients with emphysema. AI-based algorithms are convenient for pattern recognition on chest CT images and emphysema quantification.
Aim of the work: To evaluate an artificial intelligence-based prototype algorithm for quantification of emphysema on chest CT compared with PFT.
Patients and Methods: This cross-sectional study was carried at radiodiagnosis department Ain Shams university hospitals. A total of 35 patients who underwent both chest CT and PFT within 6 months were retrospectively included. The spirometry based Tiffeneau index (TI; which is the ratio of forced expiratory volume in the first second to forced vital capacity) was used to identify emphysema severity; a value of <0.7 was considered to imply airway obstruction. Lung volume analysis was calculated using local artificial intelligence-based 3D reconstruction software and emphysema was quantified using attenuation-based threshold of (-950 HU). Percentage of Low attenuation area (LAA %) was reflected by automated calculation of Goddard score. Emphysema quantification was compared to TI using the using Pearson's method.
Results: The mean TI for all patients was 0.77 ± 0.22. The mean percentages of emphysema (LAA%) 20.54% ± 21.8%. AI-based emphysema quantification showed good correlation with TI (p < 0.001). Conclusion: AI-based, automated emphysema quantification either with Goddard score or LAA % shows good correlation with TI, possibly contributing to an image-based diagnosis, COPD categorization, follow-up, and treatment strategies planning.
Keywords
emphysema; low-attenuation area; lung analysis; quantitative computed tomography; artificial intelligence
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