1.Asymptomatic Cerebral Small Vessel Disease: Insights from Population-Based Studies
Alvin S DAS ; Robert W REGENHARDT ; Meike W VERNOOIJ ; Deborah BLACKER ; Andreas CHARIDIMOU ; Anand VISWANATHAN
Journal of Stroke 2019;21(2):121-138
Cerebral small vessel disease (CSVD) is a common group of neurological conditions that confer a significant burden of morbidity and mortality worldwide. In most cases, CSVD is only recognized in its advanced stages once its symptomatic sequelae develop. However, its significance in asymptomatic healthy populations remains poorly defined. In population-based studies of presumed healthy elderly individuals, CSVD neuroimaging markers including white matter hyperintensities, lacunes, cerebral microbleeds, enlarged perivascular spaces, cortical superficial siderosis, and cerebral microinfarcts are frequently detected. While the presence of these imaging markers may reflect unique mechanisms at play, there are likely shared pathways underlying CSVD. Herein, we aim to assess the etiology and significance of these individual biomarkers by focusing in asymptomatic populations at an epidemiological level. By primarily examining population-based studies, we explore the risk factors that are involved in the formation and progression of these biomarkers. Through a critical semi-systematic review, we aim to characterize “asymptomatic” CSVD, review screening modalities, and draw associations from observational studies in clinical populations. Lastly, we highlight areas of research (including therapeutic approaches) in which further investigation is needed to better understand asymptomatic CSVD.
Aged
;
Biomarkers
;
Cerebral Small Vessel Diseases
;
Epidemiology
;
Humans
;
Leukoaraiosis
;
Mass Screening
;
Mortality
;
Neuroimaging
;
Risk Factors
;
Siderosis
;
Stroke, Lacunar
;
White Matter
3.Association of Symptomatic Hearing Loss with Functional and Cognitive Recovery 1 Year after Intracerebral Hemorrhage
Jessica R. ABRAMSON ; Juan Pablo CASTELLO ; Sophia KEINS ; Christina KOURKOULIS ; M. Edip GUROL ; Steven M. GREENBERG ; Anand VISWANATHAN ; Christopher D. ANDERSON ; Jonathan ROSAND ; Alessandro BIFFI
Journal of Stroke 2022;24(2):303-306
4.Decreased Basal Ganglia Volume in Cerebral Amyloid Angiopathy
Panagiotis FOTIADIS ; Marco PASI ; Andreas CHARIDIMOU ; Andrew D. WARREN ; Kristin M. SCHWAB ; ; Jonathan ROSAND ; Jeroen van der GROND ; Mark A. van BUCHEM ; Anand VISWANATHAN ; M. Edip GUROL ; Steven M. GREENBERG
Journal of Stroke 2021;23(2):223-233
Background:
and Purpose Cerebral amyloid angiopathy (CAA) is a common pathology of the leptomeningeal and cortical small vessels associated with hemorrhagic and non-hemorrhagic brain injury. Given previous evidence for CAA-related loss of cortical thickness and white matter volume, we hypothesized that CAA might also cause tissue loss in the basal ganglia.
Methods:
We compared basal ganglia volumes expressed as a percentage of total intracranial volume (pBGV) of non-demented patients with sporadic and hereditary CAA to age-matched healthy control (HC) and Alzheimer’s disease (AD) cohorts.
Results:
Patients with sporadic CAA had lower pBGV (n=80, 1.16%±0.14%) compared to HC (n=80, 1.30%±0.13%, P<0.0001) and AD patients (n=80, 1.23%±0.11%, P=0.001). Similarly, patients with hereditary CAA demonstrated lower pBGV (n=25, 1.26%±0.17%) compared to their matched HC (n=25, 1.36%±0.15%, P=0.036). Using a measurement of normalized basal ganglia width developed for analysis of clinical-grade magnetic resonance images, we found smaller basal ganglia width in patients with CAA-related lobar intracerebral hemorrhage (ICH; n=93, 12.35±1.47) compared to age-matched patients with hypertension-related deep ICH (n=93, 13.46±1.51, P<0.0001) or HC (n=93, 15.45±1.22, P<0.0001). Within the sporadic CAA research cohort, decreased basal ganglia volume was independently correlated with greater cortical gray matter atrophy (r=0.45, P<0.0001), increased basal ganglia fractional anisotropy (r=–0.36, P=0.001), and worse performance on language processing (r=0.35, P=0.003), but not with cognitive tests of executive function or processing speed.
Conclusions
These findings suggest an independent effect of CAA on basal ganglia tissue loss, indicating a novel mechanism for CAA-related brain injury and neurologic dysfunction.
5.Decreased Basal Ganglia Volume in Cerebral Amyloid Angiopathy
Panagiotis FOTIADIS ; Marco PASI ; Andreas CHARIDIMOU ; Andrew D. WARREN ; Kristin M. SCHWAB ; ; Jonathan ROSAND ; Jeroen van der GROND ; Mark A. van BUCHEM ; Anand VISWANATHAN ; M. Edip GUROL ; Steven M. GREENBERG
Journal of Stroke 2021;23(2):223-233
Background:
and Purpose Cerebral amyloid angiopathy (CAA) is a common pathology of the leptomeningeal and cortical small vessels associated with hemorrhagic and non-hemorrhagic brain injury. Given previous evidence for CAA-related loss of cortical thickness and white matter volume, we hypothesized that CAA might also cause tissue loss in the basal ganglia.
Methods:
We compared basal ganglia volumes expressed as a percentage of total intracranial volume (pBGV) of non-demented patients with sporadic and hereditary CAA to age-matched healthy control (HC) and Alzheimer’s disease (AD) cohorts.
Results:
Patients with sporadic CAA had lower pBGV (n=80, 1.16%±0.14%) compared to HC (n=80, 1.30%±0.13%, P<0.0001) and AD patients (n=80, 1.23%±0.11%, P=0.001). Similarly, patients with hereditary CAA demonstrated lower pBGV (n=25, 1.26%±0.17%) compared to their matched HC (n=25, 1.36%±0.15%, P=0.036). Using a measurement of normalized basal ganglia width developed for analysis of clinical-grade magnetic resonance images, we found smaller basal ganglia width in patients with CAA-related lobar intracerebral hemorrhage (ICH; n=93, 12.35±1.47) compared to age-matched patients with hypertension-related deep ICH (n=93, 13.46±1.51, P<0.0001) or HC (n=93, 15.45±1.22, P<0.0001). Within the sporadic CAA research cohort, decreased basal ganglia volume was independently correlated with greater cortical gray matter atrophy (r=0.45, P<0.0001), increased basal ganglia fractional anisotropy (r=–0.36, P=0.001), and worse performance on language processing (r=0.35, P=0.003), but not with cognitive tests of executive function or processing speed.
Conclusions
These findings suggest an independent effect of CAA on basal ganglia tissue loss, indicating a novel mechanism for CAA-related brain injury and neurologic dysfunction.