4.7 Article

Fully automated intracardiac 4D flow MRI post-processing using deep learning for biventricular segmentation

期刊

EUROPEAN RADIOLOGY
卷 32, 期 8, 页码 5669-5678

出版社

SPRINGER
DOI: 10.1007/s00330-022-08616-7

关键词

Magnetic resonance imaging; Deep learning; Heart ventricles; Hemodynamics; Observer variation

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This study evaluates the use of automatic ventricular segmentation based on deep learning in 4D flow MRI post-processing. The results show that the automated segmentation method provides hemodynamic measurements that differ less than the variation between manual observers, thus reducing post-processing time and mitigating interobserver variability.
Objectives 4D flow MRI allows for a comprehensive assessment of intracardiac blood flow, useful for assessing cardiovascular diseases, but post-processing requires time-consuming ventricular segmentation throughout the cardiac cycle and is prone to subjective errors. Here, we evaluate the use of automatic left and right ventricular (LV and RV) segmentation based on deep learning (DL) network that operates on short-axis cine bSSFP images. Methods A previously published DL network was fine-tuned via retraining on a local database of 106 subjects scanned at our institution. In 26 test subjects, the ventricles were segmented automatically by the network and manually by 3 human observers on bSSFP MRI. The bSSFP images were then registered to the corresponding 4D flow images to apply the segmentation to 4D flow velocity data. Dice coefficients and the relative deviation between measurements (automatic vs. manual and interobserver manual) of various hemodynamic parameters were assessed. Results The automated segmentation resulted in similar Dice scores (LV: 0.92, RV: 0.86) and lower relative deviations from manual segmentation in left ventricular (LV) average kinetic energy (KE) (8%) and RV KE (15%) than the Dice scores (LV: 0.91, RV: 0.87) and relative deviations between manual segmentation observers (LV KE: 11%, p = 0.01; RV KE: 19%, p = 0.03). Conclusions The automated post-processing method using deep learning resulted in hemodynamic measurements that differ from a manual observer's measurements equally or less than the variation between manual observers. This approach can be used to decrease post-processing time on intraventricular 4D flow data and mitigate interobserver variability.

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