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Abstract
SUMMARY: We demonstrate the feasibility of intracranial vascular segmentation based on the hypointense signal in non-contrast-enhanced black-blood MR imaging using convolutional neural networks. We selected 37 cases. Qualitatively, we observed no degradation due to stent artifacts, a comparable recognition of an aneurysm recurrence with TOF-MRA, and consistent success in the differentiation of intracranial arteries and veins. False-positive and false-negative results were observed. Quantitatively, our model achieved a promising Dice similarity coefficient of 0.72.
ABBREVIATIONS:
- BBMRI
- black-blood compressed-sensing MRI
- CNN
- convolutional neural networks
- DSC
- Dice similarity coefficient
- © 2022 by American Journal of Neuroradiology
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