Abstract
BackgroundComputed tomography angiography (CTA) imaging is needed in current guideline-based stroke diagnosis, and infarct core size is one factor in guiding treatment decisions. We studied the efficacy of a convolutional neural network (CNN) in final infarct volume prediction from CTA and compared the results to a CT perfusion (CTP)-based commercially available software (RAPID, iSchemaView).MethodsWe retrospectively selected 83 consecutive stroke cases treated with thrombolytic therapy or receiving supportive care that presented to Helsinki University Hospital between January 2018 and July 2019. We compared CNN-derived ischaemic lesion volumes to final infarct volumes that were manually segmented from follow-up CT and to CTP-RAPID ischaemic core volumes.ResultsAn overall correlation of r = 0.83 was found between CNN outputs and final infarct volumes. The strongest correlation was found in a subgroup of patients that presented more than 9 h of symptom onset (r = 0.90). A good correlation was found between the CNN outputs and CTP-RAPID ischaemic core volumes (r = 0.89) and the CNN was able to classify patients for thrombolytic therapy or supportive care with a 1.00 sensitivity and 0.94 specificity.ConclusionsA CTA-based CNN software can provide good infarct core volume estimates as observed in follow-up imaging studies. CNN-derived infarct volumes had a good correlation to CTP-RAPID ischaemic core volumes.
Highlights
Computed tomography angiography (CTA) imaging is needed in current guideline-based stroke diagnosis, and infarct core size is one factor in guiding treatment decisions
Recent studies have evaluated the safety of intravenous thrombolysis in patients with acute ischaemic stroke (AIS) of unwitnessed onset at 4.5–24 h since last known well and in patients with wake-up stroke in a treatment window that was 9 h after the midpoint of the time they fell asleep to the time they woke with symptoms [6]
Alberta Stroke Programme Early computed tomography (CT) Score (ASPECTS) regions were used to evaluate the anatomical accuracy of the convolutional neural network (CNN) against expert segmentations of final infarct volumes
Summary
Computed tomography angiography (CTA) imaging is needed in current guideline-based stroke diagnosis, and infarct core size is one factor in guiding treatment decisions. The DAWN study demonstrated the efficacy and safety of thrombectomy in patients with occlusion of the intracranial internal carotid artery or proximal middle cerebral artery in patients who had last been known to be well 6–24 h earlier and who had a mismatch between the severity of the clinical deficit and the infarct core [3]. This means that patients were treated up to almost 16 h after the time the patient was last known to be well. CTA on the other hand is more readily available and provides the possible presence and site of arterial occlusion
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