心肌灌注成像
医学
灌注
接收机工作特性
置信区间
衰减校正
内科学
放射科
心脏病学
核医学
正电子发射断层摄影术
作者
Anna M Marcinkiewicz,Wenhao Zhang,Aakash Shanbhag,Robert J.H. Miller,Mark A. Lemley,Giselle Ramirez,Mikołaj Buchwald,Aditya Killekar,Paul Kavanagh,Attila Feher,Edward J. Miller,Andrew J. Einstein,Terrence D. Ruddy,Joanna X. Liang,Valerie Builoff,David Ouyang,Daniel S. Berman,Damini Dey,Piotr J. Slomka
标识
DOI:10.1038/s41746-025-01526-0
摘要
Abstract Low-dose computed tomography attenuation correction (CTAC) scans are used in hybrid myocardial perfusion imaging (MPI) for attenuation correction and coronary calcium scoring, and contain additional anatomic and pathologic information not utilized in clinical assessment. We seek to uncover the full potential of these scans utilizing a holistic artificial intelligence (AI) approach. A multi-structure model segmented 33 structures and quantified 15 radiomics features in each organ in 10,480 patients from 4 sites. Coronary calcium and epicardial fat measures were obtained from separate AI models. The area under the receiver-operating characteristic curves (AUC) for all-cause mortality prediction of the model utilizing MPI, CT, stress test, and clinical features was 0.80 (95% confidence interval [0.74–0.87]), which was higher than for coronary calcium (0.64 [0.57–0.71]) or perfusion (0.62 [0.55–0.70]), with p < 0.001 for both. A comprehensive multimodality approach can significantly improve mortality prediction compared to MPI information alone in patients undergoing hybrid MPI.
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