CaravelMetrics automates graph-based extraction of 15 cerebrovascular features from TOF-MRA scans and demonstrates its use on 570 IXI subjects to reveal age, sex, and education related vascular differences.
An Automated Framework for Large-Scale Graph-Based Cerebrovascular Analysis
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abstract
We present CaravelMetrics, a computational framework for automated cerebrovascular analysis that models vessel morphology through skeletonization-derived graph representations. The framework integrates atlas-based regional parcellation, centerline extraction, and graph construction to compute fifteen morphometric, topological, fractal, and geometric features. The features can be estimated globally from the complete vascular network or regionally within arterial territories, enabling multiscale characterization of cerebrovascular organization. Applied to 570 3D TOF-MRA scans from the IXI dataset (ages 20-86), CaravelMetrics yields reproducible vessel graphs capturing age- and sex-related variations and education-associated increases in vascular complexity, consistent with findings reported in the literature. The framework provides a scalable and fully automated approach for quantitative cerebrovascular feature extraction, supporting normative modeling and population-level studies of vascular health and aging.
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cs.CV 1years
2025 1verdicts
UNVERDICTED 1representative citing papers
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An Automated Framework for Large-Scale Graph-Based Cerebrovascular Analysis
CaravelMetrics automates graph-based extraction of 15 cerebrovascular features from TOF-MRA scans and demonstrates its use on 570 IXI subjects to reveal age, sex, and education related vascular differences.