What does this research mean for the field?

Microglial reactivity predicts hippocampal atrophy in patients with cerebral small vessel disease, but does not predict global brain atrophy or cognitive impairment. Novelty: ClaimNovelty.NOVEL_FINDING. Consensus alignment: ConsensusAlignment.NEUTRAL.

What question did this study set out to answer?

This research aims to explore the predictive role of microglial reactivity and blood-brain barrier permeability on brain atrophy and cognitive decline in cerebral small vessel disease.

March 14, 2026Open Access

Microglial reactivity predicts hippocampal, but not global, atrophy in cerebral small vessel disease

Key Points

This research aims to explore the predictive role of microglial reactivity and blood-brain barrier permeability on brain atrophy and cognitive decline in cerebral small vessel disease.
Seventy-seven patients with CSVD were recruited for the study.
Baseline microglial reactivity was measured using 11C-PK11195 positron emission tomography.
Blood-brain barrier permeability was assessed through dynamic contrast enhanced MRI.
Atrophy was evaluated for both the hippocampus and whole-brain over one year.
Cognitive impairment was tracked over four years using statistical analyses.
Greater microglial reactivity (11C-PK11195 binding) was significantly associated with hippocampal atrophy (p=0.001).
There was no significant association between microglial reactivity and global brain atrophy.
Cox regression analyses indicated no connections between microglial reactivity and cognitive impairment.
Blood-brain barrier permeability was not linked to either atrophy measure or cognitive decline.

Abstract

INTRODUCTION: Cerebral small vessel disease (CSVD) is the most prevalent pathology underlying vascular dementia. Increased neuroinflammation and blood-brain barrier (BBB) permeability have been implicated in CSVD pathogenesis. We determined whether microglial reactivity and BBB permeability at baseline predicted whole-brain and hippocampal atrophy over one year, and cognitive impairment over four years. METHODS: Seventy-seven patients with CSVD were recruited to this prospective study. Baseline microglial reactivity and BBB permeability were determined using 11C-PK11195 positron emission tomography and dynamic contrast enhanced MRI respectively. RESULTS: Greater 11C-PK11195 binding at baseline was associated with hippocampal atrophy over one year (p=0.001), but not with global brain atrophy. Cox regression analyses showed no significant associations between 11C-PK11195 and cognitive impairment. There were no associations between BBB permeability with whole-brain and hippocampal atrophy, or with cognitive impairment. DISCUSSION: Our data suggests that microglial reactivity may play a role in hippocampal atrophy; potentially contributing to the increasingly recognised interaction between vascular and neurodegenerative pathology.

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