Accuracy of a deep learning-based algorithm for the detection of thoracic aortic calcifications in chest computed tomography and cardiovascular surgery planning

Abstract OBJECTIVES To assess the accuracy of a deep learning-based algorithm for fully automated detection of thoracic aortic calcifications in chest computed tomography (CT) with a focus on the aortic clamping zone. METHODS We retrospectively included 100 chest CT scans from 91 patients who were e...

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Veröffentlicht in:European journal of cardio-thoracic surgery 2024-06, Vol.65 (6)
Hauptverfasser: Saffar, Ruben, Sperl, Jonathan I, Berger, Tim, Vojtekova, Jana, Kreibich, Maximilian, Hagar, Muhammad Taha, Weiss, Jakob B, Soschynski, Martin, Bamberg, Fabian, Czerny, Martin, Schuppert, Christopher, Schlett, Christopher L
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Sprache:eng
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Zusammenfassung:Abstract OBJECTIVES To assess the accuracy of a deep learning-based algorithm for fully automated detection of thoracic aortic calcifications in chest computed tomography (CT) with a focus on the aortic clamping zone. METHODS We retrospectively included 100 chest CT scans from 91 patients who were examined on second- or third-generation dual-source scanners. Subsamples comprised 47 scans with an electrocardiogram-gated aortic angiography and 53 unenhanced scans. A deep learning model performed aortic landmark detection and aorta segmentation to derive 8 vessel segments. Associated calcifications were detected and their volumes measured using a mean-based density thresholding. Algorithm parameters (calcium cluster size threshold, aortic mask dilatation) were varied to determine optimal performance for the upper ascending aorta that encompasses the aortic clamping zone. A binary visual rating served as a reference. Standard estimates of diagnostic accuracy and inter-rater agreement using Cohen’s Kappa were calculated. RESULTS Thoracic aortic calcifications were observed in 74% of patients with a prevalence of 27–70% by aorta segment. Using different parameter combinations, the algorithm provided binary ratings for all scans and segments. The best performing parameter combination for the presence of calcifications in the aortic clamping zone yielded a sensitivity of 93% and a specificity of 82%, with an area under the receiver operating characteristic curve of 0.874. Using these parameters, the inter-rater agreement ranged from κ 0.66 to 0.92 per segment. CONCLUSIONS Fully automated segmental detection of thoracic aortic calcifications in chest CT performs with high accuracy. This includes the critical preoperative assessment of the aortic clamping zone. Thoracic aortic calcifications (TAC) are a common finding in chest computed tomography (CT) scans. Graphical Abstract
ISSN:1873-734X
1873-734X
DOI:10.1093/ejcts/ezae219