Journal
GEROSCIENCE
Volume 44, Issue 2, Pages 805-816Publisher
SPRINGER
DOI: 10.1007/s11357-021-00504-0
Keywords
Microbleed; Vascular contributions to cognitive impairment and dementia (VCID); VCI; Vascular cognitive impairment; Vein; Venous congestion; Heart failure; Cerebral circulation; ICH; Intracerebral hemorrhage
Categories
Funding
- American Heart Association [AHA834339]
- Oklahoma Center for the Advancement of Science and Technology
- National Institute on Aging [R01-AG055395, R01-AG047879, R01-AG038747, K01-AG073614]
- National Institute of Neurological Disorders and Stroke (NINDS) [R01-NS100782, R01-NS056218]
- Stephenson Cancer Center - National Cancer Institute Cancer Center [P30CA225520]
- Oklahoma Shared Clinical and Translational Resources (OSCTR) program - National Institute of General Medical Sciences [U54GM104938]
- Presbyterian Health Foundation
- European Union [EFOP-3.6.1-16-2016-00008, 20765-3/2018/FEKUTSTRAT, EFOP-3.6.2.-16-2017-00008, GINOP-2.3.2-15-2016-00048, GINOP-2.3.3-15-201600032]
- National Research, Development and Innovation Office [NKFI-FK123798]
- Hungarian Academy of Sciences (Bolyai Research Scholarship) [BO/00634/15]
- New National Excellence Program of the Ministry of Human Capacities [UNKP-18-4-PTE-6]
- National Research, Development and Innovation Fund of Hungary of the University of Debrecen [TKP2020-IKA-04, TKP2020-NKA-04]
- NIA [T32AG052363]
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This study found that cerebral venous congestion can exacerbate cerebral microhemorrhages, with implications for cognitive impairment associated with right heart failure and elevated cerebral venous pressure.
Cerebral microhemorrhages (CMHs; microbleeds), which are small focal intracerebral hemorrhages, importantly contribute to the pathogenesis of cognitive decline and dementia in older adults. Although recently it has been increasingly recognized that the venous side of the cerebral circulation likely plays a fundamental role in the pathogenesis of a wide spectrum of cerebrovascular and brain disorders, its role in the pathogenesis of CMHs has never been studied. The present study was designed to experimentally test the hypothesis that venous congestion can exacerbate the genesis of CMHs. Increased cerebral venous pressure was induced by internal and external jugular vein ligation (JVL) in C57BL/6 mice in which systemic hypertension was induced by treatment with angiotensin II plus L-NAME. Histological analysis (diaminobenzidine staining) showed that mice with JVL developed multiple CMHs. CMHs in mice with JVL were often localized adjacent to veins and venules and their morphology was consistent with venous origin of the bleeds. In brains of mice with JVL, a higher total count of CMHs was observed compared to control mice. CMHs were distributed widely in the brain of mice with JVL, including the cortical gray matter, brain stem, the basal ganglia, subcortical white matter, cerebellum, and the hippocampi. In mice with JVL, there were more CMHs predominantly in cerebral cortex, brain stem, and cerebellum than in control mice. CMH burden, defined as total CMH volume, also significantly increased in mice with JVL. Thus, cerebral venous congestion can exacerbate CMHs. These observations have relevance to the pathogenesis of cognitive impairment associated with right heart failure as well as elevated cerebral venous pressure due to jugular venous reflux in older adults.
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