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Divergent regional patterns of cerebral hypoperfusion and gray matter atrophy in mild cognitive impairment patients

MPG-Autoren
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Witte,  Veronica
Department of Neurology, Charité University Medicine Berlin, Germany;
Department Neurology, MPI for Human Cognitive and Brain Sciences, Max Planck Society;

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Zitation

Wirth, M., Pichet Binette, A., Brunecker, P., Köbe, T., Witte, V., & Flöel, A. (2017). Divergent regional patterns of cerebral hypoperfusion and gray matter atrophy in mild cognitive impairment patients. Journal of Cerebral Blood Flow and Metabolism, 37(3), 814-824. doi:10.1177/0271678X16641128.


Zitierlink: https://hdl.handle.net/11858/00-001M-0000-002B-81BA-D
Zusammenfassung
Reductions of cerebral blood flow and gray matter structure have been implicated in early pathogenesis of Alzheimer’s disease, potentially providing complementary information. The present study evaluated regional patterns of cerebral hypoperfusion and atrophy in patients with mild cognitive impairment and healthy older adults. In each participant, cerebral perfusion and gray matter structure were extracted within selected brain regions vulnerable to Alzheimer’s disease using magnetic resonance imaging. Measures were compared between diagnostic groups with/without adjustment for covariates. In mild cognitive impairment patients, cerebral blood flow was significantly reduced in comparison with healthy controls in temporo-parietal regions and the basal ganglia in the absence of local gray matter atrophy. By contrast, gray matter structure was significantly reduced in the hippocampus in the absence of local hypoperfusion. Both, cerebral perfusion and gray matter structure were significantly reduced in the entorhinal and isthmus cingulate cortex in mild cognitive impairment patients compared with healthy older adults. Our results demonstrated partly divergent patterns of temporo-parietal hypoperfusion and medial-temporal atrophy in mild cognitive impairment patients, potentially indicating biomarker sensitivity to dissociable pathological mechanisms. The findings support applicability of cerebral perfusion and gray matter structure as complementary magnetic resonance imaging-based biomarkers in early Alzheimer’s disease detection, a hypothesis to be further evaluated in longitudinal studies.