Popp A, Taubmann O, Thamm F, Ditt H, Maier A, Breininger K (2022)
Publication Language: English
Publication Type: Conference contribution
Publication year: 2022
Conference Proceedings Title: Bildverarbeitung in der Medizin
Event location: Heidelberg
DOI: 10.1007/978-3-658-36932-3_33
In case of an acute ischemic stroke, rapid diagnosis and removal of the occluding thrombus (blood clot) are crucial for a successful
recovery. We present an automated thrombus detection system for noncontrast computed tomography (NCCT) images to improve the clinical
workflow, where NCCT is typically acquired as a first-line imaging tool
to identify the type of the stroke. The system consists of a candidate
detection model and a subsequent classification model. The detection
model generates a volumetric heatmap from the NCCT and extracts
multiple potential clot candidates, sorted by their likeliness in descending order. The classification model performs reprioritization of these
candidates using graph-based deep learning methods, where the candidates are no longer considered independently, but in a global context. It
was optimized to classify the candidates as clot or no clot. The candidate
detection model, which also serves as a baseline, yields a ROC AUC of
79.8%, which could be improved to 85.2% by the proposed graph-based
classification model.
APA:
Popp, A., Taubmann, O., Thamm, F., Ditt, H., Maier, A., & Breininger, K. (2022). Thrombus Detection in Non-Contrast Head CT using Graph Deep Learning. In Bildverarbeitung in der Medizin. Heidelberg.
MLA:
Popp, Antonia, et al. "Thrombus Detection in Non-Contrast Head CT using Graph Deep Learning." Proceedings of the Bildverarbeitung in der Medizin 2022, Heidelberg 2022.
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