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Main Authors: Nader, Rafic, L'Allinec, Vincent, Bourcier, Romain, Autrusseau, Florent
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2507.02349
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author Nader, Rafic
L'Allinec, Vincent
Bourcier, Romain
Autrusseau, Florent
author_facet Nader, Rafic
L'Allinec, Vincent
Bourcier, Romain
Autrusseau, Florent
contents Intracranial aneurysms (ICA) commonly occur in specific segments of the Circle of Willis (CoW), primarily, onto thirteen major arterial bifurcations. An accurate detection of these critical landmarks is necessary for a prompt and efficient diagnosis. We introduce a fully automated landmark detection approach for CoW bifurcations using a two-step neural networks process. Initially, an object detection network identifies regions of interest (ROIs) proximal to the landmark locations. Subsequently, a modified U-Net with deep supervision is exploited to accurately locate the bifurcations. This two-step method reduces various problems, such as the missed detections caused by two landmarks being close to each other and having similar visual characteristics, especially when processing the complete MRA Time-of-Flight (TOF). Additionally, it accounts for the anatomical variability of the CoW, which affects the number of detectable landmarks per scan. We assessed the effectiveness of our approach using two cerebral MRA datasets: our In-House dataset which had varying numbers of landmarks, and a public dataset with standardized landmark configuration. Our experimental results demonstrate that our method achieves the highest level of performance on a bifurcation detection task.
format Preprint
id arxiv_https___arxiv_org_abs_2507_02349
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Two-Steps Neural Networks for an Automated Cerebrovascular Landmark Detection
Nader, Rafic
L'Allinec, Vincent
Bourcier, Romain
Autrusseau, Florent
Computer Vision and Pattern Recognition
Artificial Intelligence
Intracranial aneurysms (ICA) commonly occur in specific segments of the Circle of Willis (CoW), primarily, onto thirteen major arterial bifurcations. An accurate detection of these critical landmarks is necessary for a prompt and efficient diagnosis. We introduce a fully automated landmark detection approach for CoW bifurcations using a two-step neural networks process. Initially, an object detection network identifies regions of interest (ROIs) proximal to the landmark locations. Subsequently, a modified U-Net with deep supervision is exploited to accurately locate the bifurcations. This two-step method reduces various problems, such as the missed detections caused by two landmarks being close to each other and having similar visual characteristics, especially when processing the complete MRA Time-of-Flight (TOF). Additionally, it accounts for the anatomical variability of the CoW, which affects the number of detectable landmarks per scan. We assessed the effectiveness of our approach using two cerebral MRA datasets: our In-House dataset which had varying numbers of landmarks, and a public dataset with standardized landmark configuration. Our experimental results demonstrate that our method achieves the highest level of performance on a bifurcation detection task.
title Two-Steps Neural Networks for an Automated Cerebrovascular Landmark Detection
topic Computer Vision and Pattern Recognition
Artificial Intelligence
url https://arxiv.org/abs/2507.02349