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Generative Adversarial Network-Based Image Conversion Among Different Computed Tomography Protocols and Vendors: Effects on Accuracy and Variability in Quantifying Regional Disease Patterns of Interstitial Lung DiseaseGenerative Adversarial Network-Based Image Conversion Among Different Computed Tomography Protocols and Vendors: Effects on Accuracy and Variability in Quantifying Regional Disease Patterns of Interstitial Lung Disease

Other Titles
Generative Adversarial Network-Based Image Conversion Among Different Computed Tomography Protocols and Vendors: Effects on Accuracy and Variability in Quantifying Regional Disease Patterns of Interstitial Lung Disease
Authors
Hwang, Hye JeonKim, HyunjongSeo, Joon BeomYe, Jong ChulOh, GyutaekLee, Sang MinJang, RyoungwooYun, JihyeKim, NamkugPark, Hee JunLee, Ho YunYoon, Soon HoShin, Kyung EunLee, Jae WookKwon, WoocheolSun, Joo SungYou, SeulgiChung, Myung HeeGil, Bo MiLim, Jae-KwangLee, YoukyungHong, Su JinChoi, Yo Won
Issue Date
Aug-2023
Publisher
대한영상의학회
Keywords
Interstitial lung disease; Computed tomography; Quantification; Artificial intelligence
Citation
Korean Journal of Radiology, v.24, no.8, pp 807 - 820
Pages
14
Indexed
SCIE
SCOPUS
KCI
Journal Title
Korean Journal of Radiology
Volume
24
Number
8
Start Page
807
End Page
820
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/196546
DOI
10.3348/kjr.2023.0088
ISSN
1229-6929
2005-8330
Abstract
OBJECTIVE: To assess whether computed tomography (CT) conversion across different scan parameters and manufacturers using a routable generative adversarial network (RouteGAN) can improve the accuracy and variability in quantifying interstitial lung disease (ILD) using a deep learning-based automated software. MATERIALS AND METHODS: This study included patients with ILD who underwent thin-section CT. Unmatched CT images obtained using scanners from four manufacturers (vendors A-D), standard- or low-radiation doses, and sharp or medium kernels were classified into groups 1-7 according to acquisition conditions. CT images in groups 2-7 were converted into the target CT style (Group 1: vendor A, standard dose, and sharp kernel) using a RouteGAN. ILD was quantified on original and converted CT images using a deep learning-based software (Aview, Coreline Soft). The accuracy of quantification was analyzed using the dice similarity coefficient (DSC) and pixel-wise overlap accuracy metrics against manual quantification by a radiologist. Five radiologists evaluated quantification accuracy using a 10-point visual scoring system. RESULTS: Three hundred and fifty CT slices from 150 patients (mean age: 67.6 ± 10.7 years; 56 females) were included. The overlap accuracies for quantifying total abnormalities in groups 2-7 improved after CT conversion (original vs. converted: 0.63 vs. 0.68 for DSC, 0.66 vs. 0.70 for pixel-wise recall, and 0.68 vs. 0.73 for pixel-wise precision; P < 0.002 for all). The DSCs of fibrosis score, honeycombing, and reticulation significantly increased after CT conversion (0.32 vs. 0.64, 0.19 vs. 0.47, and 0.23 vs. 0.54, P < 0.002 for all), whereas those of ground-glass opacity, consolidation, and emphysema did not change significantly or decreased slightly. The radiologists' scores were significantly higher (P < 0.001) and less variable on converted CT. CONCLUSION: CT conversion using a RouteGAN can improve the accuracy and variability of CT images obtained using different scan parameters and manufacturers in deep learning-based quantification of ILD.
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