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Hauptverfasser: Castro, Jorge A. Roa, Singh, Abhishek, Hans, Atharva, Kondratiuk, Kostiantyn, Saloner, David, Rayz, Vitaliy L., Vlachos, Pavlos P., Bilionis, Ilias
Format: Preprint
Veröffentlicht: 2026
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Online-Zugang:https://arxiv.org/abs/2604.06649
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author Castro, Jorge A. Roa
Singh, Abhishek
Hans, Atharva
Kondratiuk, Kostiantyn
Saloner, David
Rayz, Vitaliy L.
Vlachos, Pavlos P.
Bilionis, Ilias
author_facet Castro, Jorge A. Roa
Singh, Abhishek
Hans, Atharva
Kondratiuk, Kostiantyn
Saloner, David
Rayz, Vitaliy L.
Vlachos, Pavlos P.
Bilionis, Ilias
contents Clinical decisions for unruptured intracranial aneurysms depend on detecting growth on follow-up magnetic resonance angiography (MRA). Growth is typically judged from manual 2D diameters on few slices, which vary across clinicians and frequently miss subtle 3D change. Even with 3D segmentations, apparent differences can reflect resolution, segmentation, surface processing, or registration mismatch rather than true growth; most criteria remain heuristic and binary. We show that a Bayesian displacement-based model using the surrounding vessel as an internal reference achieves strong discrimination of aneurysm growth (AUC 0.86-0.87) and improves agreement with expert labels (Cohen's kappa up to 0.66 vs. 0.35 for volumetric criteria), while providing calibrated posterior probabilities with uncertainty bounds. The method registers baseline and follow-up surfaces, computes normal-directed displacements, and summarizes change as the difference between mean aneurysm displacement and mean displacement on the surrounding non-aneurysmal vessel segment. The vessel segment serves as an internal control for imaging and processing variability, assuming negligible structural change over the surveillance interval. We evaluate two cohorts spanning time-of-flight and contrast-enhanced longitudinal MRA studies: a public dataset labeled from neuroradiologist-provided measurements and an institutional dataset labeled by senior and junior raters. Performance is preserved when training on lower-expertise labels, indicating robustness to label variability. Calibrated probabilities may aid clinical decision-making in borderline cases, where high uncertainty can motivate repeat imaging. This framework provides interpretable probabilistic growth assessment from longitudinal MRA, reduces dependence on clinician expertise, and supports cross-center surveillance across scanners and angiography sequences.
format Preprint
id arxiv_https___arxiv_org_abs_2604_06649
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Bayesian Aneurysm Growth Detection via Surface Displacement Modeling
Castro, Jorge A. Roa
Singh, Abhishek
Hans, Atharva
Kondratiuk, Kostiantyn
Saloner, David
Rayz, Vitaliy L.
Vlachos, Pavlos P.
Bilionis, Ilias
Medical Physics
Clinical decisions for unruptured intracranial aneurysms depend on detecting growth on follow-up magnetic resonance angiography (MRA). Growth is typically judged from manual 2D diameters on few slices, which vary across clinicians and frequently miss subtle 3D change. Even with 3D segmentations, apparent differences can reflect resolution, segmentation, surface processing, or registration mismatch rather than true growth; most criteria remain heuristic and binary. We show that a Bayesian displacement-based model using the surrounding vessel as an internal reference achieves strong discrimination of aneurysm growth (AUC 0.86-0.87) and improves agreement with expert labels (Cohen's kappa up to 0.66 vs. 0.35 for volumetric criteria), while providing calibrated posterior probabilities with uncertainty bounds. The method registers baseline and follow-up surfaces, computes normal-directed displacements, and summarizes change as the difference between mean aneurysm displacement and mean displacement on the surrounding non-aneurysmal vessel segment. The vessel segment serves as an internal control for imaging and processing variability, assuming negligible structural change over the surveillance interval. We evaluate two cohorts spanning time-of-flight and contrast-enhanced longitudinal MRA studies: a public dataset labeled from neuroradiologist-provided measurements and an institutional dataset labeled by senior and junior raters. Performance is preserved when training on lower-expertise labels, indicating robustness to label variability. Calibrated probabilities may aid clinical decision-making in borderline cases, where high uncertainty can motivate repeat imaging. This framework provides interpretable probabilistic growth assessment from longitudinal MRA, reduces dependence on clinician expertise, and supports cross-center surveillance across scanners and angiography sequences.
title Bayesian Aneurysm Growth Detection via Surface Displacement Modeling
topic Medical Physics
url https://arxiv.org/abs/2604.06649