A Combined Deep Learning System for Automatic Detection of “Bovine” Aortic Arch on Computed Tomography Scans

A Combined Deep Learning System for Automatic Detection of “Bovine” Aortic Arch on Computed Tomography Scans

The “bovine” aortic arch is an anatomic variant consisting in a common origin of the innominate and left carotid artery (CILCA), associated with a greater risk of thoracic aortic diseases (aneurysms and dissections), stroke, and complications after endovascular procedures. CILCA can be detected by v...

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Bibliographic Details
Published in:Applied sciences Vol. 12; no. 4; p. 2056
Main Authors: Secchi, Francesco, Interlenghi, Matteo, Alì, Marco, Schiavon, Elia, Monti, Caterina Beatrice, Capra, Davide, Salvatore, Christian, Castiglioni, Isabella, Papa, Sergio, Sardanelli, Francesco, Marrocco-Trischitta, Massimiliano M.
Format: Journal Article
Language:English
Published: Basel MDPI AG 01-02-2022
Subjects:
Aorta
Aortic aneurysms
Aortic arch
Aortic dissection
Artificial intelligence
brachiocephalic trunk
Cardiovascular system
Carotid arteries
carotid artery
Cattle
Chest
Classification
Clinical medicine
common
Complications
Computed tomography
Deep learning
Disease
Ethics
Health risks
Image classification
Likelihood ratio
Medical imaging
Semantics
Software
Surveillance
thoracic
Thorax
Tomography
Veins & arteries
Italy
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Summary:The “bovine” aortic arch is an anatomic variant consisting in a common origin of the innominate and left carotid artery (CILCA), associated with a greater risk of thoracic aortic diseases (aneurysms and dissections), stroke, and complications after endovascular procedures. CILCA can be detected by visual assessment of computed tomography (CT) chest scans, but it is rarely reported. We developed a deep learning (DL) segmentation-plus-classification system to automatically detect CILCA based on 302 CT studies acquired at 2 centers. One model (3D U-Net) was trained from scratch (supervised by manual segmentation), validated, and tested for the automatic segmentation of the aortic arch and supra-aortic vessels. Three DL architectures (ResNet50, DenseNet-201, and SqueezeNet), pre-trained over millions of common images, were trained, validated, and tested for the automatic classification of CILCA versus non-CILCA, supervised by radiologist’s classification. The 3D U-Net-plus-DenseNet-201 was found to be the best system (Dice index 0.912); its classification performance obtained from internal, independent testing on 126 patients gave a receiver operating characteristic area under the curve of 87.0%, sensitivity 66.7%, specificity 90.5%, positive predictive value 87.5%, negative predictive value 73.1%, positive likelihood ratio 7.0, and negative likelihood ratio 0.4. In conclusion, a combined DL system applied to chest CT scans was developed and proven to be an effective tool to detect individuals with “bovine” aortic arch with a low rate of false-positive findings.
ISSN:2076-3417
2076-3417
DOI:10.3390/app12042056