Early detection of white matter hyperintensities using<scp>SHIVA‐WMH</scp>detector

Tsuchida, Ami; Boutinaud, Philippe; Verrecchia, Violaine; Tzourio, Christophe; Debette, Stéphanie; Joliot, Marc

doi:10.1002/hbm.26548

Human Brain Mapping

2023

DOI: 10.1002/hbm.26548

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Early detection of white matter hyperintensities usingSHIVA‐WMHdetector

Ami Tsuchida,

Philippe Boutinaud,

Violaine Verrecchia

et al.

Abstract: White matter hyperintensities (WMHs) are well‐established markers of cerebral small vessel disease, and are associated with an increased risk of stroke, dementia, and mortality. Although their prevalence increases with age, small and punctate WMHs have been reported with surprisingly high frequency even in young, neurologically asymptomatic adults. However, most automated methods to segment WMH published to date are not optimized for detecting small and sparse WMH. Here we present the SHIVA‐WMH tool, a deep‐le… Show more

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2024

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Cited by 2 publications

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SHIVA-CMB: A Deep-Learning-based Robust Cerebral Microbleed Segmentation Tool Trained on Multi-Source T2*GRE- and Susceptibility- weighted MRI

Tsuchida,

Goubet,

Boutinaud

et al. 2024

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Cerebral microbleeds (CMB) represent a feature of cerebral small vessel disease (cSVD), a prominent vascular contributor to age-related cognitive decline, dementia, and stroke. They are visible as spherical hypointense signals on T2*- or susceptibility-weighted magnetic resonance imaging (MRI) sequences. An increasing number of automated CMB detection methods being proposed are based on supervised deep learning (DL). Yet, the lack of open sharing of pre-trained models hampers the practical application and evaluation of these methods beyond specific data sources used in each study. Here, we present the SHIVA-CMB detector, a 3D Unet-based tool trained on 450 scans taken from seven acquisitions in six different cohort studies that included both T2*- and susceptibility-weighted MRI. In a held-out testset of 96 scans, it achieved an average sensitivity, precision, and F1(or Dice similarity coefficient) score of 0.72, 0.76, and 0.72 per image, with less than one false positive detection per image (FPavg = 0.62) and per CMB (FPcmb = 0.15). It achieved a similar level of performance in a separate, evaluation-only dataset with acquisitions never seen during the training (0.73, 0.81, 0.75, 0.5, 0.07 for average sensitivity, precision, F1 score, FPavg, and FPcmb). Further demonstrating its generalizability, it showed a high correlation (Pearson’s R = 0.89, p < 0.0001) with a visual count by expert raters in another independent set of 1992 T2*-weighted scans from a large, multi-center cohort study. Importantly, we publicly share both the code and pre-trained models to the research community to promote the active application and evaluation of our tool. We believe this effort will help accelerate research on the pathophysiology and functional consequences of CMB by enabling rapid characterization of CMB in large-scale studies.

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SHIVA-CMB: A Deep-Learning-based Robust Cerebral Microbleed Segmentation Tool Trained on Multi-Source T2*GRE- and Susceptibility- weighted MRI

Tsuchida,

Goubet,

Boutinaud

et al. 2024

Preprint

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No effects of multi-modal intervention against cognitive decline on atrophy and small vessel disease imaging markers in the AgeWell.de imaging study

Beyer,

Kleine,

Zülke

et al. 2024

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Background Multimodal lifestyle interventions might help to maintain healthy cognition in older age and to delay onset of dementia. Here, we studied the effects of a multi-modal lifestyle-based intervention, based on the FINGER trial, on magnetic resonance imaging (MRI) markers of hippocampal-limbic atrophy and cerebral small vessel disease in older adults at increased risk for dementia in Germany. Methods Leipzig participants of the multicenter AgeWell.de randomized controlled trial were examined with magnetic resonance imaging before and after a two year intervention at 3 Tesla MRI. We extracted hippocampal volume and entorhinal cortex thickness (ECT), free water fraction (FW), peak width of skeletonized mean diffusivity (PSMD), white matter hyperintensity volume and mean gray matter cerebral blood flow and assessed the effect of the intervention on these imaging markers using linear mixed models. We also tested the effect of the intervention on the hippocampus-dependent Mnemonic Similarity Test and fixel-based white matter microstructure. Results 56 individuals (mean(sd) age: 68.8 (4.2) years, 26 females, 24/32 intervention/control group) were included at baseline and 41 returned after an average of 28 months for the second assessment. ECT and FW exhibited stronger decline in the intervention compared to the control group in preregistered models but not when adjusted for baseline differences. All other markers progressed similarly across groups. In exploratory analyses, cerebral blood flow increased more in the intervention group and this change was associated with decreases in systolic blood pressure. Conclusions In this group of older adults at risk for dementia, we did not find hypothesized beneficial effects of a multi-modal lifestyle intervention on brain imaging markers of neurodegeneration and small vessel disease. Yet, preliminary evidence suggested an association of the intervention, increased cerebral blood flow and systolic blood pressure reductions. Trial registration German Clinical Trials Register (reference number DRKS00013555)

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Early detection of white matter hyperintensities usingSHIVA‐WMHdetector

Cited by 2 publications

References 69 publications

SHIVA-CMB: A Deep-Learning-based Robust Cerebral Microbleed Segmentation Tool Trained on Multi-Source T2*GRE- and Susceptibility- weighted MRI

SHIVA-CMB: A Deep-Learning-based Robust Cerebral Microbleed Segmentation Tool Trained on Multi-Source T2*GRE- and Susceptibility- weighted MRI

No effects of multi-modal intervention against cognitive decline on atrophy and small vessel disease imaging markers in the AgeWell.de imaging study

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