In European radiology ; h5-index 62.0
OBJECTIVES : Differentiation between COVID-19 and community-acquired pneumonia (CAP) in computed tomography (CT) is a task that can be performed by human radiologists and artificial intelligence (AI). The present study aims to (1) develop an AI algorithm for differentiating COVID-19 from CAP and (2) evaluate its performance. (3) Evaluate the benefit of using the AI result as assistance for radiological diagnosis and the impact on relevant parameters such as accuracy of the diagnosis, diagnostic time, and confidence.
METHODS : We included n = 1591 multicenter, multivendor chest CT scans and divided them into AI training and validation datasets to develop an AI algorithm (n = 991 CT scans; n = 462 COVID-19, and n = 529 CAP) from three centers in China. An independent Chinese and German test dataset of n = 600 CT scans from six centers (COVID-19 / CAP; n = 300 each) was used to test the performance of eight blinded radiologists and the AI algorithm. A subtest dataset (180 CT scans; n = 90 each) was used to evaluate the radiologists' performance without and with AI assistance to quantify changes in diagnostic accuracy, reporting time, and diagnostic confidence.
RESULTS : The diagnostic accuracy of the AI algorithm in the Chinese-German test dataset was 76.5%. Without AI assistance, the eight radiologists' diagnostic accuracy was 79.1% and increased with AI assistance to 81.5%, going along with significantly shorter decision times and higher confidence scores.
CONCLUSION : This large multicenter study demonstrates that AI assistance in CT-based differentiation of COVID-19 and CAP increases radiological performance with higher accuracy and specificity, faster diagnostic time, and improved diagnostic confidence.
KEY POINTS : • AI can help radiologists to get higher diagnostic accuracy, make faster decisions, and improve diagnostic confidence. • The China-German multicenter study demonstrates the advantages of a human-machine interaction using AI in clinical radiology for diagnostic differentiation between COVID-19 and CAP in CT scans.
Meng Fanyang, Kottlors Jonathan, Shahzad Rahil, Liu Haifeng, Fervers Philipp, Jin Yinhua, Rinneburger Miriam, Le Dou, Weisthoff Mathilda, Liu Wenyun, Ni Mengzhe, Sun Ye, An Liying, Huai Xiaochen, Móré Dorottya, Giannakis Athanasios, Kaltenborn Isabel, Bucher Andreas, Maintz David, Zhang Lei, Thiele Frank, Li Mingyang, Perkuhn Michael, Zhang Huimao, Persigehl Thorsten
2022-Dec-16
Artificial intelligence, COVID-19, Computed tomography, Radiologists
