Late Breaking Abstract - Artificial intelligence-based decision support for HRCT stratification in fibrotic lung disease; an international study of 116 observers from 37 countries.
Lucio Calandriello, John Mackintosh, Federico Felder, Aditya Agrawal, Omer Alamoudi, Laura Alberti, Giuseppe Aquaro, Juan Arenas-Jiménez, Iain Au-Yong, Sergey Avdeev, Maurizio Balbi, Bruno Baldi, Andrea Yu-Lin Ban, Ionela-Nicoleta Belaconi, Elisabeth Bendstrup, David Bennett, Hans-Christian Blum, Nicola Boscolo Bariga, Gracijela Bozovic, Marsel Broqi, John Bruzzi, Ivette Buendia-Roldan, Diana Calaras, Sérgio Campainha, Roberto G. Carbone, André Carvalho, Lorenzo Cereser, Gin Tsen Chai, Sachin Chaudhary, Nazia Chaudhuri, Patrick Alain Chui Wan Cheong, Wendy Cooper, Giuseppe Cutaia, Rosa D'Abronzo, Martijn D. De Kruif, Diemen Delgado-García, Sahajal Dhooria, Jesus J Diaz-Castanon, Glenn Eiger, Samantha Ellis, Rosa Estrada-Y-Martin, Yingying Fang
{"title":"Late Breaking Abstract - Artificial intelligence-based decision support for HRCT stratification in fibrotic lung disease; an international study of 116 observers from 37 countries.","authors":"Lucio Calandriello, John Mackintosh, Federico Felder, Aditya Agrawal, Omer Alamoudi, Laura Alberti, Giuseppe Aquaro, Juan Arenas-Jiménez, Iain Au-Yong, Sergey Avdeev, Maurizio Balbi, Bruno Baldi, Andrea Yu-Lin Ban, Ionela-Nicoleta Belaconi, Elisabeth Bendstrup, David Bennett, Hans-Christian Blum, Nicola Boscolo Bariga, Gracijela Bozovic, Marsel Broqi, John Bruzzi, Ivette Buendia-Roldan, Diana Calaras, Sérgio Campainha, Roberto G. Carbone, André Carvalho, Lorenzo Cereser, Gin Tsen Chai, Sachin Chaudhary, Nazia Chaudhuri, Patrick Alain Chui Wan Cheong, Wendy Cooper, Giuseppe Cutaia, Rosa D'Abronzo, Martijn D. De Kruif, Diemen Delgado-García, Sahajal Dhooria, Jesus J Diaz-Castanon, Glenn Eiger, Samantha Ellis, Rosa Estrada-Y-Martin, Yingying Fang","doi":"10.1183/13993003.congress-2023.oa4848","DOIUrl":null,"url":null,"abstract":"<b>Methods:</b> We evaluated a deep learning algorithm (DL), for classifying HRCT based on ATS/ERS/JRS/ALAT IPF guideline criteria (SOFIA), among an international group of radiologists and pulmonologists. Participants evaluated HRCTs from 203 suspected IPF patients, assigning a likelihood score for each of the guideline-based HRCT categories (each 0-100%, summing to 100%). SOFIA scores were then provided, and participants were given the opportunity to revise their scores. Agreement on (weighted kappa) and prognostic accuracy (Cox regression and C-index) of 1) UIP scores, 2) guideline-based diagnosis and 3) INBUILD categorisation (UIP/probable UIP vs indeterminate/alternative diagnosis – i.e., trial screening mode) were evaluated. <b>Results:</b> 116 participants completed the study, including 20 ILD trained radiologists. The majority opinion of ILD radiologists on each HRCT was used as a diagnostic reference standard. SOFIA improved agreement for UIP probability scores among all participants, excluding the ILD radiologists, (0.67 [IQR 0.57-0.73] vs 0.71 [IQR, 0.65-0.76], p=2.1x10-5) and guideline-based diagnoses (0.50 [IQR 0.43-0.54] vs 0.61 [IQR, 0.56-0.66], p=2.8x10-16) and INBUILD categorisation (0.42 [IQR 0.35-0.47] vs 0.56 [IQR, 0.49-0.62], p=7.1x10-19). Prognostic accuracy for UIP probability scores (mortality) were good for radiologist scoring (n=116, C-index=0.60 [IQR 0.58-0.62]), and these improved with the addition of SOFIA (C-index=0.63 [IQR 0.61-0.65], p=3.6x10-12). <b>Conclusion:</b> In pulmonary fibrosis, DL support may improve accuracy of HRCT diagnoses, provide prognostic information and faciliate screening in clinical trials.","PeriodicalId":34850,"journal":{"name":"Imaging","volume":"38 1","pages":"0"},"PeriodicalIF":0.7000,"publicationDate":"2023-09-09","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Imaging","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.1183/13993003.congress-2023.oa4848","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q3","JCRName":"MEDICINE, GENERAL & INTERNAL","Score":null,"Total":0}
引用次数: 0
Abstract
Methods: We evaluated a deep learning algorithm (DL), for classifying HRCT based on ATS/ERS/JRS/ALAT IPF guideline criteria (SOFIA), among an international group of radiologists and pulmonologists. Participants evaluated HRCTs from 203 suspected IPF patients, assigning a likelihood score for each of the guideline-based HRCT categories (each 0-100%, summing to 100%). SOFIA scores were then provided, and participants were given the opportunity to revise their scores. Agreement on (weighted kappa) and prognostic accuracy (Cox regression and C-index) of 1) UIP scores, 2) guideline-based diagnosis and 3) INBUILD categorisation (UIP/probable UIP vs indeterminate/alternative diagnosis – i.e., trial screening mode) were evaluated. Results: 116 participants completed the study, including 20 ILD trained radiologists. The majority opinion of ILD radiologists on each HRCT was used as a diagnostic reference standard. SOFIA improved agreement for UIP probability scores among all participants, excluding the ILD radiologists, (0.67 [IQR 0.57-0.73] vs 0.71 [IQR, 0.65-0.76], p=2.1x10-5) and guideline-based diagnoses (0.50 [IQR 0.43-0.54] vs 0.61 [IQR, 0.56-0.66], p=2.8x10-16) and INBUILD categorisation (0.42 [IQR 0.35-0.47] vs 0.56 [IQR, 0.49-0.62], p=7.1x10-19). Prognostic accuracy for UIP probability scores (mortality) were good for radiologist scoring (n=116, C-index=0.60 [IQR 0.58-0.62]), and these improved with the addition of SOFIA (C-index=0.63 [IQR 0.61-0.65], p=3.6x10-12). Conclusion: In pulmonary fibrosis, DL support may improve accuracy of HRCT diagnoses, provide prognostic information and faciliate screening in clinical trials.