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1. White matter hyperintensities influence distal cortical β‐amyloid accumulation in default mode network pathways

Author

Doaa G. Ali, Ahmed A. Bahrani, Riham H. El Khouli, Brian T. Gold, Yang Jiang, Valentinos Zachariou, Donna M. Wilcock, and Gregory A. Jicha

Subjects
default mode network, neuroimaging, preclinical Alzheimer's disease, regional standardized uptake value ratio, white matter hyperintensities, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571
Abstract

Abstract Background and purpose Cerebral small vessel disease (SVD) has been suggested to contribute to the pathogenesis of Alzheimer's disease (AD). Yet, the role of SVD in potentially contributing to AD pathology is unclear. The main objective of this study was to test the hypothesis that WMHs influence amyloid β (Aβ) levels within connected default mode network (DMN) tracts and cortical regions in cognitively unimpaired older adults. Methods Regional standard uptake value ratios (SUVr) from Aβ‐PET and white matter hyperintensity (WMH) volumes from three‐dimensional magnetic resonance imaging FLAIR images were analyzed across a sample of 72 clinically unimpaired (mini‐mental state examination ≥26), older adults (mean age 74.96 and standard deviation 8.13) from the Alzheimer's Disease Neuroimaging Initiative (ADNI3). The association of WMH volumes in major fiber tracts projecting from cortical DMN regions and Aβ‐PET SUVr in the connected cortical DMN regions was analyzed using linear regression models adjusted for age, sex, ApoE, and total brain volumes. Results The regression analyses demonstrate that increased WMH volumes in the superior longitudinal fasciculus were associated with increased regional SUVr in the inferior parietal lobule (p = .011). Conclusion The findings suggest that the relation between Aβ in parietal cortex is associated with SVD in downstream white matter (WM) pathways in preclinical AD. The biological relationships and interplay between Aβ and WM microstructure alterations that precede overt WMH development across the continuum of AD progression warrant further study.

Published
2023
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2. Plasma TDP‐43 levels are associated with neuroimaging measures of brain structure in limbic regions

Author

Christopher E. Bauer, Valentinos Zachariou, Tiffany L. Sudduth, Linda J. Van Eldik, Gregory A. Jicha, Peter T. Nelson, Donna M. Wilcock, and Brian T. Gold

Subjects
aging, biomarker, cortical thickness, entorhinal cortex, limbic‐predominant age‐related TDP‐43 encephalopathy, neuroimaging, Neurology. Diseases of the nervous system, RC346-429, Geriatrics, RC952-954.6
Abstract

Abstract Introduction We evaluated the relationship between plasma levels of transactive response DNA binding protein of 43 kDa (TDP‐43) and neuroimaging (magnetic resonance imaging [MRI]) measures of brain structure in aging. Methods Plasma samples were collected from 72 non‐demented older adults (age range 60–94 years) in the University of Kentucky Alzheimer's Disease Research Center cohort. Multivariate linear regression models were run with plasma TDP‐43 level as the predictor variable and brain structure (volumetric or cortical thickness) measurements as the dependent variable. Covariates included age, sex, intracranial volume, and plasma markers of Alzheimer's disease neuropathological change (ADNC). Results Negative associations were observed between plasma TDP‐43 level and both the volume of the entorhinal cortex, and cortical thickness in the cingulate/parahippocampal gyrus, after controlling for ADNC plasma markers. Discussion Plasma TDP‐43 levels may be directly associated with structural MRI measures. Plasma TDP‐43 assays may prove useful in clinical trial stratification. HIGHLIGHTS Plasma transactive response DNA binding protein of 43 kDa (TDP‐43) levels were associated with entorhinal cortex volume. Biomarkers of TDP‐43 and Alzheimer's disease neuropathologic change (ADNC) may help distinguish limbic‐predominant age‐related TDP‐43 encephalopathy neuropathologic change (LATE‐NC) from ADNC. A comprehensive biomarker kit could aid enrollment in LATE‐NC clinical trials.

Published
2023
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3. Multi-compartment diffusion magnetic resonance imaging models link tract-related characteristics with working memory performance in healthy older adults

Author

Christopher E. Bauer, Valentinos Zachariou, Pauline Maillard, Arvind Caprihan, and Brian T. Gold

Subjects
aging, brain, white matter, diffusion tensor imaging (DTI), free water, neurite orientation dispersion and density imaging (NODDI), Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571
Abstract

Multi-compartment diffusion MRI metrics [such as metrics from free water elimination diffusion tensor imaging (FWE-DTI) and neurite orientation dispersion and density imaging (NODDI)] may reflect more specific underlying white-matter tract characteristics than traditional, single-compartment metrics [i.e., metrics from Diffusion Tensor Imaging (DTI)]. However, it remains unclear if multi-compartment metrics are more closely associated with age and/or cognitive performance than single-compartment metrics. Here we compared the associations of single-compartment [Fractional Anisotropy (FA)] and multi-compartment diffusion MRI metrics [FWE-DTI metrics: Free Water Eliminated Fractional Anisotropy (FWE-FA) and Free Water (FW); NODDI metrics: Intracellular Volume Fraction (ICVF), Orientation Dispersion Index (ODI), and CSF-Fraction] with both age and working memory performance. A functional magnetic resonance imaging (fMRI) guided, white matter tractography approach was employed to compute diffusion metrics within a network of tracts connecting functional regions involved in working memory. Ninety-nine healthy older adults (aged 60–85) performed an in-scanner working memory task while fMRI was performed and also underwent multi-shell diffusion acquisition. The network of white matter tracts connecting functionally-activated regions was identified using probabilistic tractography. Diffusion metrics were extracted from skeletonized white matter tracts connecting fMRI activation peaks. Diffusion metrics derived from both single and multi-compartment models were associated with age (ps ≤ 0.011 for FA, FWE-FA, ICVF and ODI). However, only multi-compartment metrics, specifically FWE-FA (p = 0.045) and ICVF (p = 0.020), were associated with working memory performance. Our results suggest that while most current diffusion metrics are sensitive to age, several multi-compartment metrics (i.e., FWE-FA and ICVF) appear more sensitive to cognitive performance in healthy older adults.

Published
2022
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4. Enlarged Perivascular Spaces Are Negatively Associated With Montreal Cognitive Assessment Scores in Older Adults

Author

Timothy J. Libecap, Valentinos Zachariou, Christopher E. Bauer, Donna M. Wilcock, Gregory A. Jicha, Flavius D. Raslau, and Brian T. Gold

Subjects
enlarged perivascular spaces—ePVS, cerebral small vessel disease, Montréal Cognitive Assessment—MoCA, neuroimaging biomarkers, white matter hyperintensities—WMH, Neurology. Diseases of the nervous system, RC346-429
Abstract

Emerging evidence suggests that enlarged perivascular spaces (ePVS) may be a clinically significant neuroimaging marker of global cognitive function related to cerebral small vessel disease (cSVD). We tested this possibility by assessing the relationship between ePVS and both a standardized measure of global cognitive function, the Montreal Cognitive Assessment (MoCA), and an established marker of cSVD, white matter hyperintensity volume (WMH) volume. One hundred and eleven community-dwelling older adults (56–86) underwent neuroimaging and MoCA testing. Quantification of region-specific ePVS burden was performed using a previously validated visual rating method and WMH volumes were computed using the standard ADNI pipeline. Separate linear regression models were run with ePVS as a predictor of MoCA scores and whole brain WMH volume. Results indicated a negative association between MoCA scores and both total ePVS counts (P ≤ 0.001) and centrum semiovale ePVS counts (P ≤ 0.001), after controlling for other relevant cSVD variables. Further, WMH volumes were positively associated with total ePVS (P = 0.010), basal ganglia ePVS (P ≤ 0.001), and centrum semiovale ePVS (P = 0.027). Our results suggest that ePVS burden, particularly in the centrum semiovale, may be a clinically significant neuroimaging marker of global cognitive dysfunction related to cSVD.

Published
2022
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6. Ironsmith: An automated pipeline for QSM-based data analyses

Author

Valentinos Zachariou, Christopher E. Bauer, David K. Powell, and Brian T. Gold

Subjects
Quantitative susceptibility mapping, Aging, Brain iron, Software, Automated pipeline, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571
Abstract

Quantitative susceptibility mapping (QSM) is an MRI-based, computational method for anatomically localizing and measuring concentrations of specific biomarkers in tissue such as iron. Growing research suggests QSM is a viable method for evaluating the impact of iron overload in neurological disorders and on cognitive performance in aging. Several software toolboxes are currently available to reconstruct QSM maps from 3D GRE MR Images. However, few if any software packages currently exist that offer fully automated pipelines for QSM-based data analyses: from DICOM images to region-of-interest (ROI) based QSM values. Even less QSM-based software exist that offer quality control measures for evaluating the QSM output. Here, we address these gaps in the field by introducing and demonstrating the reliability and external validity of Ironsmith; an open-source, fully automated pipeline for creating and processing QSM maps, extracting QSM values from subcortical and cortical brain regions (89 ROIs) and evaluating the quality of QSM data using SNR measures and assessment of outlier regions on phase images. Ironsmith also features automatic filtering of QSM outlier values and precise CSF-only QSM reference masks that minimize partial volume effects. Testing of Ironsmith revealed excellent intra- and inter-rater reliability. Finally, external validity of Ironsmith was demonstrated via an anatomically selective relationship between motor performance and Ironsmith-derived QSM values in motor cortex. In sum, Ironsmith provides a freely-available, reliable, turn-key pipeline for QSM-based data analyses to support research on the impact of brain iron in aging and neurodegenerative disease.

Published
2022
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7. Amyloid-PET and White Matter Hyperintensities Have Independent Effects on Baseline Cognitive Function and Synergistic Effects on Longitudinal Executive Function

Author

Doaa G. Ali, Erin L. Abner, Ahmed A. Bahrani, Riham El Khouli, Brian T. Gold, Yang Jiang, Donna M. Wilcock, and Gregory A. Jicha

Subjects
white matter hyperintensities (WMH), regional standardized uptake value ratio (SUVr), executive function, neuroimaging, preclinical Alzheimer’s disease, cognitive function, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571
Abstract

Co-occurrence of beta amyloid (Aβ) and white matter hyperintensities (WMHs) increase the risk of dementia and both are considered biomarkers of preclinical dementia. Moderation and mediation modeling were used to define the interplay between global and regional Aβ and WMHs measures in relation to executive function (EF) and memory composite scores outcomes at baseline and after approximately 2 years across a sample of 714 clinically normal participants from the Alzheimer’s Disease Neuroimaging Initiative (ADNI 2). The moderation regression analysis showed additive effects of Aβ and WMHs over baseline memory and EF scores (p = 0.401 and 0.061, respectively) and synergistic effects over follow-up EF (p < 0.05). Through mediation analysis, the data presented demonstrate that WMHs effects, mediated by global and regional amyloid burden, are responsible for baseline cognitive performance deficits in memory and EF. These findings suggest that Aβ and WMHs contribute to baseline cognition independently while WMHs volumes exert effects on baseline cognitive performance directly and through influences on Aβ accumulation.

Published
2023
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8. Multi-vendor and multisite evaluation of cerebrovascular reactivity mapping using hypercapnia challenge

Author

Peiying Liu, Dengrong Jiang, Marilyn Albert, Christopher E. Bauer, Arvind Caprihan, Brian T. Gold, Steven M. Greenberg, Karl G. Helmer, Kay Jann, Gregory Jicha, Pavel Rodriguez, Claudia L. Satizabal, Sudha Seshadri, Herpreet Singh, Jeffrey F. Thompson, Danny J.J. Wang, and Hanzhang Lu

Subjects
Cerebrovascular reactivity, Hypercapnia, BOLD, Carbon dioxide, End-tidal CO2, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571
Abstract

Cerebrovascular reactivity (CVR), which measures the ability of cerebral blood vessels to dilate or constrict in response to vasoactive stimuli such as CO2 inhalation, is an important index of the brain's vascular health. Quantification of CVR using BOLD MRI with hypercapnia challenge has shown great promises in research and clinical studies. However, in order for it to be used as a potential imaging biomarker in large-scale and multi-site studies, the reliability of CO2-CVR quantification across different MRI acquisition platforms and researchers/raters must be examined. The goal of this report from the MarkVCID small vessel disease biomarkers consortium is to evaluate the reliability of CO2-CVR quantification in three studies. First, the inter-rater reliability of CO2-CVR data processing was evaluated by having raters from 5 MarkVCID sites process the same 30 CVR datasets using a cloud-based CVR data processing pipeline. Second, the inter-scanner reproducibility of CO2-CVR quantification was assessed in 10 young subjects across two scanners of different vendors. Third, test-retest repeatability was evaluated in 20 elderly subjects from 4 sites with a scan interval of less than 2 weeks. In all studies, the CO2 CVR measurements were performed using the fixed inspiration method, where the subjects wore a nose clip and a mouthpiece and breathed room air and 5% CO2 air contained in a Douglas bag alternatively through their mouth. The results showed that the inter-rater CoV of CVR processing was 0.08 ± 0.08% for whole-brain CVR values and ranged from 0.16% to 0.88% in major brain regions, with ICC of absolute agreement above 0.9959 for all brain regions. Inter-scanner CoV was found to be 6.90 ± 5.08% for whole-brain CVR values, and ranged from 4.69% to 12.71% in major brain regions, which are comparable to intra-session CoVs obtained from the same scanners on the same day. ICC of consistency between the two scanners was 0.8498 for whole-brain CVR and ranged from 0.8052 to 0.9185 across major brain regions. In the test-retest evaluation, test-retest CoV across different days was found to be 18.29 ± 17.12% for whole-brain CVR values, and ranged from 16.58% to 19.52% in major brain regions, with ICC of absolute agreement ranged from 0.6480 to 0.7785. These results demonstrated good inter-rater, inter-scanner, and test-retest reliability in healthy volunteers, and suggested that CO2-CVR has suitable instrumental properties for use as an imaging biomarker of cerebrovascular function in multi-site and longitudinal observational studies and clinical trials.

Published
2021
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9. White Matter Hyperintensity Volume and Location: Associations With WM Microstructure, Brain Iron, and Cerebral Perfusion

Author

Christopher E. Bauer, Valentinos Zachariou, Elayna Seago, and Brian T. Gold

Subjects
cerebral small vessel disease, DTI, white matter hyperintensities, cerebral perfusion, brain iron, QSM, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571
Abstract

Cerebral white matter hyperintensities (WMHs) represent macrostructural brain damage associated with various etiologies. However, the relative contributions of various etiologies to WMH volume, as assessed via different neuroimaging measures, is not well-understood. Here, we explored associations between three potential early markers of white matter hyperintensity volume. Specifically, the unique variance in total and regional WMH volumes accounted for by white matter microstructure, brain iron concentration and cerebral blood flow (CBF) was assessed. Regional volumes explored were periventricular and deep regions. Eighty healthy older adults (ages 60–86) were scanned at 3 Tesla MRI using fluid-attenuated inversion recovery, diffusion tensor imaging (DTI), multi-echo gradient-recalled echo and pseudo-continuous arterial spin labeling sequences. In a stepwise regression model, DTI-based radial diffusivity accounted for significant variance in total WMH volume (adjusted R2 change = 0.136). In contrast, iron concentration (adjusted R2 change = 0.043) and CBF (adjusted R2 change = 0.027) made more modest improvements to the variance accounted for in total WMH volume. However, there was an interaction between iron concentration and location on WMH volume such that iron concentration predicted deep (p = 0.034) but not periventricular (p = 0.414) WMH volume. Our results suggest that WM microstructure may be a better predictor of WMH volume than either brain iron or CBF but also draws attention to the possibility that some early WMH markers may be location-specific.

Published
2021
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10. Cortical iron disrupts functional connectivity networks supporting working memory performance in older adults

Author

Valentinos Zachariou, Christopher E. Bauer, Elayna R. Seago, Flavius D. Raslau, David K. Powell, and Brian T. Gold

Subjects
Aging, Brain, Working memory, QSM, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571
Abstract

Excessive brain iron negatively affects working memory and related processes but the impact of cortical iron on task-relevant, cortical brain networks is unknown. We hypothesized that high cortical iron concentration may disrupt functional circuitry within cortical networks supporting working memory performance. Fifty-five healthy older adults completed an N-Back working memory paradigm while functional magnetic resonance imaging (fMRI) was performed. Participants also underwent quantitative susceptibility mapping (QSM) imaging for assessment of non-heme brain iron concentration. Additionally, pseudo continuous arterial spin labeling scans were obtained to control for potential contributions of cerebral blood volume and structural brain images were used to control for contributions of brain volume. Task performance was positively correlated with strength of task-based functional connectivity (tFC) between brain regions of the frontoparietal working memory network. However, higher cortical iron concentration was associated with lower tFC within this frontoparietal network and with poorer working memory performance after controlling for both cerebral blood flow and brain volume. Our results suggest that high cortical iron concentration disrupts communication within frontoparietal networks supporting working memory and is associated with reduced working memory performance in older adults.

Published
2020
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11. Non-fasting High-Density Lipoprotein Is Associated With White Matter Microstructure in Healthy Older Adults

Author

Nathan F. Johnson, Brian T. Gold, Dorothy Ross, Alison L. Bailey, Jody L. Clasey, Vedant Gupta, Steve W. Leung, and David K. Powell

Subjects
high-density lipoprotein, white matter, fornix, cholesterol, aging, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571
Abstract

A growing body of evidence indicates that biomarkers of cardiovascular risk may be related to cerebral health. However, little is known about the role that non-fasting lipoproteins play in assessing age-related declines in a cerebral biomarker sensitive to vascular compromise, white matter (WM) microstructure. High-density lipoprotein cholesterol (HDL-C) is atheroprotective and low-density lipoprotein cholesterol (LDL-C) is a major atherogenic lipoprotein. This study explored the relationships between non-fasting levels of cholesterol and WM microstructure in healthy older adults. A voxelwise and region of interest approach was used to determine the relationship between cholesterol and fractional anisotropy (FA). Participants included 87 older adults between the ages of 59 and 77 (mean age = 65.5 years, SD = 3.9). Results indicated that higher HDL-C was associated with higher FA in diffuse regions of the brain when controlling for age, sex, and body mass index (BMI). HDL-C was also positively associated with FA in the corpus callosum and fornix. No relationship was observed between LDL-C and FA. Findings suggest that a modifiable lifestyle variable associated with cardiovascular health may help to preserve cerebral WM.

Published
2019
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12. Endothelial Function Is Associated with White Matter Microstructure and Executive Function in Older Adults

Author

Nathan F. Johnson, Brian T. Gold, Christopher A. Brown, Emily F. Anggelis, Alison L. Bailey, Jody L. Clasey, and David K. Powell

Subjects
aging, endothelial function, reactive hyperemia, diffusion tensor imaging, executive function, white matter hyperintensity, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571
Abstract

Age-related declines in endothelial function can lead to cognitive decline. However, little is known about the relationships between endothelial function and specific neurocognitive functions. This study explored the relationship between measures of endothelial function (reactive hyperemia index; RHI), white matter (WM) health (fractional anisotropy, FA, and WM hyperintensity volume, WMH), and executive function (Trail Making Test (TMT); Trail B − Trail A). Participants were 36 older adults between the ages of 59 and 69 (mean age = 63.89 years, SD = 2.94). WMH volume showed no relationship with RHI or executive function. However, there was a positive relationship between RHI and FA in the genu and body of the corpus callosum. In addition, higher RHI and FA were each associated with better executive task performance. Tractography was used to localize the WM tracts associated with RHI to specific portions of cortex. Results indicated that the RHI-FA relationship observed in the corpus callosum primarily involved tracts interconnecting frontal regions, including the superior frontal gyrus (SFG) and frontopolar cortex, linked with executive function. These findings suggest that superior endothelial function may help to attenuate age-related declines in WM microstructure in portions of the corpus callosum that interconnect prefrontal brain regions involved in executive function.

Published
2017
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13. White Matter Hyperintensity Regression: Comparison of Brain Atrophy and Cognitive Profiles with Progression and Stable Groups

Author

Omar M. Al-Janabi, Christopher E. Bauer, Larry B. Goldstein, Richard R. Murphy, Ahmed A. Bahrani, Charles D. Smith, Donna M. Wilcock, Brian T. Gold, and Gregory A. Jicha

Subjects
white matter hyperintensities, WMH regression, WMH progression, Stable WMH, ADNI, brain atrophy, cognition, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571
Abstract

Subcortical white matter hyperintensities (WMHs) in the aging population frequently represent vascular injury that may lead to cognitive impairment. WMH progression is well described, but the factors underlying WMH regression remain poorly understood. A sample of 351 participants from the Alzheimer’s Disease Neuroimaging Initiative 2 (ADNI2) was explored who had WMH volumetric quantification, structural brain measures, and cognitive measures (memory and executive function) at baseline and after approximately 2 years. Selected participants were categorized into three groups based on WMH change over time, including those that demonstrated regression (n = 96; 25.5%), stability (n = 72; 19.1%), and progression (n = 209; 55.4%). There were no significant differences in age, education, sex, or cognitive status between groups. Analysis of variance demonstrated significant differences in atrophy between the progression and both regression (p = 0.004) and stable groups (p = 0.012). Memory assessments improved over time in the regression and stable groups but declined in the progression group (p = 0.003; p = 0.018). WMH regression is associated with decreased brain atrophy and improvement in memory performance over two years compared to those with WMH progression, in whom memory and brain atrophy worsened. These data suggest that WMHs are dynamic and associated with changes in atrophy and cognition.

Published
2019
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15. Association of Baseline Cerebrovascular Reactivity and Longitudinal Development of Enlarged Perivascular Spaces in the Basal Ganglia

Author

T.J. Libecap, Christopher E. Bauer, Valentinos Zachariou, Colleen A. Pappas, Flavius D. Raslau, Peiying Liu, Hanzhang Lu, and Brian T. Gold

Abstract

1.AbstractBackgroundIncreasing evidence suggests that enlarged perivascular spaces (ePVS) are associated with cognitive dysfunction in aging. However, the etiology of ePVS remains unknown. Here we tested the possibility that baseline cerebrovascular dysfunction, as measured by an MRI measure of cerebrovascular reactivity (CVR), contributes to the later development of ePVS.MethodsA total of 79 cognitively normal, older adults (46 women, age range 60-84) were recruited to undergo MRI scanning at baseline and 50 participants returned for a follow-up scan approximately 2.5 years later. ePVS were counted in the basal ganglia, centrum semiovale, midbrain, and hippocampus. CVR, an index of the vasodilatory capacity of cerebral small vessels, was assessed using carbon-dioxide inhalation while acquiring blood oxygen-level dependent (BOLD) MR images.ResultsLow baseline CVR values in the basal ganglia were associated with increased follow-up ePVS counts in the basal ganglia after controlling for age, sex, and baseline ePVS values (coefficient estimate (SE) = -15.87 (3.92), p < 0.001, 95% confidence interval [CI] -23.68 to - 8.05). This effect remained significant after accounting for self-reported risk factors of cerebral small vessel disease (cSVD) (coefficient estimate (SE) = -15.03 (4.00), p < 0.001, CI -23.02 to - 7.05) and neuroimaging markers of cSVD (coefficient estimate (SE) = -13.99 (4.02), p < 0.001, CI -22.03 to -5.95).ConclusionsOur results demonstrate that low baseline CVR is a risk factor for later development of ePVS. MRI-based CVR may represent a promising biomarker of cSVD.

Published
2023
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18. Discrete white matter hyperintensity (WMH) growth quantification is superior to measurements of total longitudinal WMH volume change: implications for clinical trials in VCID

Author

Ahmed Ali Bahrani, Justin M Barber, Brian T. Gold, Doaa Ali, David K Powell, Linda J Van Eldik, Larry B Goldstein, Donna M Wilcock, and Gregory A Jicha

Subjects
Psychiatry and Mental health, Cellular and Molecular Neuroscience, Developmental Neuroscience, Epidemiology, Health Policy, Neurology (clinical), Geriatrics and Gerontology
Published
2022
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23. High cortical iron is associated with the disruption of white matter tracts supporting cognitive function in healthy older adults

Author

Valentinos Zachariou, Christopher E Bauer, Colleen Pappas, and Brian T Gold

Subjects
Cellular and Molecular Neuroscience, Cognitive Neuroscience
Abstract

Aging is associated with brain iron accumulation, which has been linked to cognitive decline. However, how brain iron affects the structure and function of cognitive brain networks remains unclear. Here, we explored the possibility that iron load in gray matter is associated with disruption of white matter (WM) microstructure within a network supporting cognitive function, in a cohort of 95 cognitively normal older adults (age range: 60–86). Functional magnetic resonance imaging was used to localize a set of brain regions involved in working memory and diffusion tensor imaging based probabilistic tractography was used to identify a network of WM tracts connecting the functionally defined regions. Brain iron concentration within these regions was evaluated using quantitative susceptibility mapping and microstructural properties were assessed within the identified tracts using neurite orientation dispersion and density imaging. Results indicated that high brain iron concentration was associated with low neurite density (ND) within the task-relevant WM network. Further, regional associations were observed such that brain iron in cortical regions was linked with lower ND in neighboring but not distant WM tracts. Our results provide novel evidence suggesting that age-related increases in brain iron concentration are associated with the disruption of WM tracts supporting cognitive function in normal aging.

Published
2022

24. Water exchange rate across the blood‐brain barrier is associated with CSF amyloid‐β 42 in healthy older adults

Author

Danny J.J. Wang, Elayna R. Seago, Xingfeng Shao, Brian T. Gold, Gregory A. Jicha, Tiffany L. Sudduth, and Donna M. Wilcock

Subjects
Male, medicine.medical_specialty, Epidemiology, Amyloid beta, tau Proteins, Water exchange, Blood–brain barrier, Article, 030218 nuclear medicine & medical imaging, 03 medical and health sciences, Cellular and Molecular Neuroscience, 0302 clinical medicine, Cerebrospinal fluid, Developmental Neuroscience, Alzheimer Disease, Internal medicine, medicine, Humans, Aged, Amyloid beta-Peptides, medicine.diagnostic_test, biology, business.industry, Health Policy, Neuropsychology, Brain, Water, Magnetic resonance imaging, Magnetic Resonance Imaging, Healthy Volunteers, Peptide Fragments, Psychiatry and Mental health, medicine.anatomical_structure, Blood-Brain Barrier, Cardiology, biology.protein, Biomarker (medicine), Female, Spin Labels, Glymphatic system, Neurology (clinical), Geriatrics and Gerontology, business, Biomarkers, 030217 neurology & neurosurgery
Abstract

Introduction We tested if water exchange across the blood-brain barrier (BBB), estimated with a noninvasive magnetic resonance imaging (MRI) technique, is associated with cerebrospinal fluid (CSF) biomarkers of Alzheimer's disease (AD) and neuropsychological function. Methods Forty cognitively normal older adults (67-86 years old) were scanned with diffusion-prepared, arterial spin labeling (DP-ASL), which estimates water exchange rate across the BBB (kw ). Participants also underwent CSF draw and neuropsychological testing. Multiple linear regression models were run with kw as a predictor of CSF concentrations and neuropsychological scores. Results In multiple brain regions, BBB kw was positively associated with CSF amyloid beta (Aβ)42 concentration levels. BBB kw was only moderately associated with neuropsychological performance. Discussion Our results suggest that low water exchange rate across the BBB is associated with low CSF Aβ42 concentration. These findings suggest that kw may be a promising noninvasive indicator of BBB Aβ clearance functions, a possibility which should be further tested in future research.

Published
2021
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27. Treatment of obsessive-compulsive disorder with frontopolar multifocal transcranial direct current stimulation and exposure and response prevention: A case Series

Author

Christopher Pittenger, Brian T. Gold, Colton S. Rippey, Alexandra R. Kelly, and Thomas G. Adams

Subjects
medicine.medical_specialty, Obsessive-Compulsive Disorder, Transcranial direct-current stimulation, business.industry, General Neuroscience, medicine.medical_treatment, Biophysics, Neurosciences. Biological psychiatry. Neuropsychiatry, Audiology, Transcranial Direct Current Stimulation, Transcranial Magnetic Stimulation, Exposure and response prevention, Treatment Outcome, Obsessive compulsive, medicine, Humans, Neurology (clinical), business, RC321-571
Published
2021

29. Amyloid-PET Levels in the Precuneus and Posterior Cingulate Cortices Are Associated with Executive Function Scores in Preclinical Alzheimer's Disease Prior to Overt Global Amyloid Positivity

Author

Doaa G. Ali, Ahmed A. Bahrani, Justin M. Barber, Riham H. El Khouli, Brian T. Gold, Jordan P. Harp, Yang Jiang, Donna M. Wilcock, and Gregory A. Jicha

Subjects
Amyloid, Amyloid beta-Peptides, Aniline Compounds, General Neuroscience, Brain, General Medicine, Amyloidosis, Gyrus Cinguli, Psychiatry and Mental health, Clinical Psychology, Executive Function, Alzheimer Disease, Parietal Lobe, Positron Emission Tomography Computed Tomography, Positron-Emission Tomography, Humans, Cognitive Dysfunction, Geriatrics and Gerontology
Abstract

Background: Global amyloid-β (Aβ) deposition in the brain can be quantified by Aβ-PET scans to support or refute a diagnosis of preclinical Alzheimer’s disease (pAD). Yet, Aβ-PET scans enable quantitative evaluation of regional Aβ elevations in pAD, potentially allowing even earlier detection of pAD, long before global positivity is achieved. It remains unclear as to whether such regional changes are clinically meaningful. Objective: Test the hypothesis that early focal regional amyloid deposition in the brain is associated with cognitive performance in specific cognitive domain scores in pAD. Methods: Global and regional standardized uptake value ratios (SUVr) from 18F-florbetapir PET/CT scanning were determined using the Siemens Syngo.via® Neurology software package across a sample of 99 clinically normal participants with Montreal Cognitive Assessment (MoCA) scores≥23. Relationships between regional SUVr and cognitive test scores were analyzed using linear regression models adjusted for age, sex, and education. Participants were divided into two groups based on SUVr in the posterior cingulate and precuneus gyri (SUVR≥1.17). Between group differences in cognitive test scores were analyzed using ANCOVA models. Results: Executive function performance was associated with increased regional SUVr in the precuneus and posterior cingulate regions only (p

Published
2022

33. MRI free water as a biomarker for cognitive performance: Validation in the MarkVCID consortium

Author

Pauline Maillard, Laura J. Hillmer, Hanzhang Lu, Konstantinos Arfanakis, Brian T. Gold, Christopher E. Bauer, Joel H. Kramer, Adam M. Staffaroni, Lara Stables, Danny J.J. Wang, Sudha Seshadri, Claudia L. Satizabal, Alexa Beiser, Mohamad Habes, Myriam Fornage, Thomas H. Mosley, Gary A. Rosenberg, Baljeet Singh, Herpreet Singh, Kristin Schwab, Karl G. Helmer, Steven M. Greenberg, Charles DeCarli, and Arvind Caprihan

Subjects
small vessel disease, Neurosciences, VCID, diffusion tensor imaging, Brain Disorders, Psychiatry and Mental health, Clinical Research, free water, white matter injury, Acquired Cognitive Impairment, Genetics, biomarker, vascular contributions to cognitive impairment and dementia, Dementia, Neurology (clinical)
Abstract

IntroductionTo evaluate the clinical validity of free water (FW), a diffusion tensor imaging-based biomarker kit proposed by the MarkVCID consortium, by investigating the association between mean FW (mFW) and executive function.MethodsBaseline mFW was related to a baseline composite measure of executive function (EFC), adjusting for relevant covariates, in three MarkVCID sub-cohorts, and replicated in five, large, independent legacy cohorts. In addition, we tested whether baseline mFW predicted accelerated EFC score decline (mean follow-up time: 1.29 years).ResultsHigher mFW was found to be associated with lower EFC scores in MarkVCID legacy and sub-cohorts (p-values&nbsp

Published
2022
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36. Executive dysfunction is the earliest sign of preclinical Alzheimer’s disease detected by regional Ab‐PET SUVr in the precuneus and posterior cingulate cortex

Author

Doaa Ali, Justin M. Barber, Riham H. El Khouli, Brian T. Gold, Jordan Harp, Linda J. Van Eldik, Donna M. Wilcock, and Gregory A. Jicha

Subjects
Psychiatry and Mental health, Cellular and Molecular Neuroscience, Developmental Neuroscience, Epidemiology, Health Policy, Neurology (clinical), Geriatrics and Gerontology
Published
2021
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37. Preclinical amyloid‐PET SUVr in the precuneus and posterior cingulate associations with MoCA scores are driven by language domain subscores

Author

Doaa Ali, Justin M Barber, Riham H El Khouli, Brian T. Gold, Jordan Harp, Linda J Van Eldik, Donna M Wilcock, and Gregory A Jicha

Subjects
Psychiatry and Mental health, Cellular and Molecular Neuroscience, Developmental Neuroscience, Epidemiology, Health Policy, Neurology (clinical), Geriatrics and Gerontology
Published
2021
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39. Instrumental validation of free water, peak-width of skeletonized mean diffusivity, and white matter hyperintensities: MarkVCID neuroimaging kits

Author

Pauline, Maillard, Hanzhang, Lu, Konstantinos, Arfanakis, Brian T, Gold, Christopher E, Bauer, Valentinos, Zachariou, Lara, Stables, Danny J J, Wang, Kay, Jann, Sudha, Seshadri, Marco, Duering, Laura J, Hillmer, Gary A, Rosenberg, Haykel, Snoussi, Farshid, Sepehrband, Mohamad, Habes, Baljeet, Singh, Joel H, Kramer, Roderick A, Corriveau, Herpreet, Singh, Kristin, Schwab, Karl G, Helmer, Steven M, Greenberg, Arvind, Caprihan, Charles, DeCarli, and Claudia L, Satizabal

Subjects
Psychiatry and Mental health, Neurology (clinical)
Abstract

To describe the protocol and findings of the instrumental validation of three imaging-based biomarker kits selected by the MarkVCID consortium: free water (FW) and peak width of skeletonized mean diffusivity (PSMD), both derived from diffusion tensor imaging (DTI), and white matter hyperintensity (WMH) volume derived from fluid attenuation inversion recovery and T1-weighted imaging.The instrumental validation of imaging-based biomarker kits included inter-rater reliability among participating sites, test-retest repeatability, and inter-scanner reproducibility across three types of magnetic resonance imaging (MRI) scanners using intra-class correlation coefficients (ICC).The three biomarkers demonstrated excellent inter-rater reliability (ICC 0.94,The three biomarker kits demonstrated very high inter-rater reliability, test-retest repeatability, and inter-scanner reproducibility, offering robust biomarkers suitable for future multi-site observational studies and clinical trials in the context of vascular cognitive impairment and dementia (VCID).

Published
2021

40. Education does not protect cognitive function from brain pathology in the ADNI 2 cohort

Author

Alzheimer’s Disease Neuroimaging Initiative, Christopher A. Brown, Brian T. Gold, and Christopher E. Bauer

Subjects
Male, 0301 basic medicine, Aging, Pathology, medicine.medical_specialty, Neuroimaging, Disease, Article, Cohort Studies, 03 medical and health sciences, Cognition, 0302 clinical medicine, Cognitive Reserve, Alzheimer Disease, medicine, Humans, Cognitive Dysfunction, Aged, Cognitive reserve, Aged, 80 and over, business.industry, General Neuroscience, Brain, Moderation, Cognitive test, 030104 developmental biology, Cohort, Educational Status, Biomarker (medicine), Female, Neurology (clinical), Atrophy, Geriatrics and Gerontology, business, Negative Results, 030217 neurology & neurosurgery, Developmental Biology
Abstract

Educational attainment is widely accepted as a cognitive reserve variable. However, few studies have demonstrated that education statistically moderates the effects of pathology on cognition. Here, we explored this issue in a sample of 441 Alzheimer's disease (AD) and mild cognitive impairment participants from the Alzheimer's Disease Neuroimaging Initiative cohort who had AD markers (Aβ42, tau, structural brain volumes) at baseline and underwent cognitive testing at baseline and at 6-month, 12-month, and 24-month time points. An AD-related biomarker (atrophy/pathology) composite at baseline was developed using stepwise backward linear regression. Potential moderation effects of education on the relationship between AD biomarkers and cognition were explored using linear mixed models. Education was positively correlated with cognition, and biomarkers were negatively correlated with cognition, across domains and diagnostic groups. However, education generally did not moderate the effects of biomarkers on baseline or longitudinal cognition. Our results do not support the hypothesis that education protects cognitive function from brain pathology in the Alzheimer's Disease Neuroimaging Initiative cohort, questioning its accepted status as a reserve variable.

Published
2020
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42. MarkVCID cerebral small vessel consortium: II. Neuroimaging protocols

Author

Hanzhang Lu, Eric E. Smith, Karl G. Helmer, Brian T. Gold, Amir H. Kashani, Steven M. Greenberg, Herpreet Singh, Andre van der Kouwe, Kristin Schwab, Roderick A. Corriveau, Danny J.J. Wang, Claudia L. Satizabal, Bruce Fischl, Konstantinos Arfanakis, Arvind Caprihan, Pauline Maillard, Lara Stables, Yang Li, and Charles DeCarli

Subjects
Male, Aging, small vessel disease, Epidemiology, quality assurance, Fluid-attenuated inversion recovery, 030218 nuclear medicine & medical imaging, 0302 clinical medicine, acquisition protocol, magnetic resonance imaging, Stroke, Tomography, screening and diagnosis, medicine.diagnostic_test, Health Policy, Angiography, Brain, Magnetic Resonance Imaging, Psychiatry and Mental health, Detection, Neurological, Biomarker (medicine), biomarker, Biomedical Imaging, Female, Tomography, Optical Coherence, 4.2 Evaluation of markers and technologies, medicine.medical_specialty, optical computed tomography angiography, MarkVCID Consortium, Clinical Sciences, Neuroimaging, Article, Imaging phantom, 03 medical and health sciences, Cellular and Molecular Neuroscience, Developmental Neuroscience, Clinical Research, medicine, Dementia, Humans, vascular contributions to cognitive impairment and dementia, Medical physics, Cognitive Dysfunction, Aged, Protocol (science), business.industry, Neurosciences, Magnetic resonance imaging, medicine.disease, Brain Disorders, Optical Coherence, Geriatrics, Cerebral Small Vessel Diseases, Neurology (clinical), Geriatrics and Gerontology, business, 030217 neurology & neurosurgery, Biomarkers
Abstract

The MarkVCID consortium was formed under cooperative agreements with the National Institute of Neurologic Diseases and Stroke (NINDS) and National Institute on Aging (NIA) in 2016 with the goals of developing and validating biomarkers for the cerebral small vessel diseases associated with the vascular contributions to cognitive impairment and dementia (VCID). Rigorously validated biomarkers have consistently been identified as crucial for multicenter studies to identify effective strategies to prevent and treat VCID, specifically to detect increased VCID risk, diagnose the presence of small vessel disease and its subtypes, assess prognosis for disease progression or response to treatment, demonstrate target engagement or mechanism of action for candidate interventions, and monitor disease progression during treatment. The seven project sites and central coordinating center comprising MarkVCID, working with NINDS and NIA, identified a panel of 11 candidate fluid- and neuroimaging-based biomarker kits and established harmonized multicenter study protocols (see companion paper "MarkVCID cerebral small vessel consortium: I. Enrollment, clinical, fluid protocols" for full details). Here we describe the MarkVCID neuroimaging protocols with specific focus on validating their application to future multicenter trials. MarkVCID procedures for participant enrollment; clinical and cognitive evaluation; and collection, handling, and instrumental validation of fluid samples are described in detail in a companion paper. Magnetic resonance imaging (MRI) has long served as the neuroimaging modality of choice for cerebral small vessel disease and VCID because of its sensitivity to a wide range of brain properties, including small structural lesions, connectivity, and cerebrovascular physiology. Despite MRI's widespread use in the VCID field, there have been relatively scant data validating the repeatability and reproducibility of MRI-based biomarkers across raters, scanner types, and time intervals (collectively defined as instrumental validity). The MRI protocols described here address the core MRI sequences for assessing cerebral small vessel disease in future research studies, specific sequence parameters for use across various research scanner types, and rigorous procedures for determining instrumental validity. Another candidate neuroimaging modality considered by MarkVCID is optical coherence tomography angiography (OCTA), a non-invasive technique for directly visualizing retinal capillaries as a marker of the cerebral capillaries. OCTA has theoretical promise as a unique opportunity to visualize small vessels derived from the cerebral circulation, but at a considerably earlier stage of development than MRI. The additional OCTA protocols described here address procedures for determining OCTA instrumental validity, evaluating sources of variability such as pupil dilation, and handling data to maintain participant privacy. MRI protocol and instrumental validation The core sequences selected for the MarkVCID MRI protocol are three-dimensional T1-weighted multi-echo magnetization-prepared rapid-acquisition-of-gradient-echo (ME-MPRAGE), three-dimensional T2-weighted fast spin echo fluid-attenuated-inversion-recovery (FLAIR), two-dimensional diffusion-weighted spin-echo echo-planar imaging (DWI), three-dimensional T2*-weighted multi-echo gradient echo (3D-GRE), three-dimensional T2 -weighted fast spin-echo imaging (T2w), and two-dimensional T2*-weighted gradient echo echo-planar blood-oxygenation-level-dependent imaging with brief periods of CO2 inhalation (BOLD-CVR). Harmonized parameters for each of these core sequences were developed for four 3 Tesla MRI scanner models in widespread use at academic medical centers. MarkVCID project sites are trained and certified for their instantiation of the consortium MRI protocols. Sites are required to perform image quality checks every 2 months using the Alzheimer's Disease Neuroimaging Initiative phantom. Instrumental validation for MarkVCID MRI-based biomarkers is operationally defined as inter-rater reliability, test-retest repeatability, and inter-scanner reproducibility. Assessments of these instrumental properties are performed on individuals representing a range of cerebral small vessel disease from mild to severe. Inter-rater reliability is determined by distribution of an independent dataset of MRI scans to each analysis site. Test-retest repeatability is determined by repeat MRI scans performed on individual participants on a single MRI scanner after a short (1- to 14-day) interval. Inter-scanner reproducibility is determined by repeat MRI scans performed on individuals performed across four MRI scanner models. OCTA protocol and instrumental validation The MarkVCID OCTA protocol uses a commercially available, Food and Drug Administration-approved OCTA apparatus. Imaging is performed on one dilated and one undilated eye to assess the need for dilation. Scans are performed in quadruplicate. MarkVCID project sites participating in OCTA validation are trained and certified by this biomarker's lead investigator. Inter-rater reliability for OCTA is assessed by distribution of OCTA datasets to each analysis site. Test-retest repeatability is assessed by repeat OCTA imaging on individuals on the same day as their baseline OCTA and a different-day repeat session after a short (1- to 14-day) interval. Methods were developed to allow the OCTA data to be de-identified by the sites before transmission to the central data management system. The MarkVCID neuroimaging protocols, like the other MarkVCID procedures, are designed to allow translation to multicenter trials and as a template for outside groups to generate directly comparable neuroimaging data. The MarkVCID neuroimaging protocols are available to the biomedical community and intended to be shared. In addition to the instrumental validation procedures described here, each of the neuroimaging MarkVCID kits will undergo biological validation to determine its ability to measure important aspects of VCID such as cognitive function. The analytic methods for the neuroimaging-based kits and the results of these validation studies will be published separately. The results will ultimately determine the neuroimaging kits' potential usefulness for multicenter interventional trials in small vessel disease-related VCID.

Published
2021

43. Healthy dietary intake moderates the effects of age on brain iron concentration and working memory performance

Author

Georgia Panayiotou, Valentinos Zachariou, Brian T. Gold, Elayna R. Seago, D. Allan Butterfield, Christopher E. Bauer, and Edward D. Hall

Subjects
0301 basic medicine, Male, Aging, medicine.medical_treatment, Iron, Physical fitness, Physiology, medicine.disease_cause, Article, Food group, 03 medical and health sciences, Eating, 0302 clinical medicine, Nutrient, Surveys and Questionnaires, Medicine, Humans, Cognitive Dysfunction, Cognitive decline, Aged, Aged, 80 and over, business.industry, Working memory, General Neuroscience, Vitamin E, Brain, Cognition, Middle Aged, Oxidative Stress, 030104 developmental biology, Memory, Short-Term, Nerve Degeneration, Female, Neurology (clinical), Geriatrics and Gerontology, Diet, Healthy, business, 030217 neurology & neurosurgery, Oxidative stress, Developmental Biology
Abstract

Age-related brain iron accumulation is linked with oxidative stress, neurodegeneration and cognitive decline. Certain nutrients can reduce brain iron concentration in animal models, however, this association is not well established in humans. Moreover, it remains unknown if nutrition can moderate the effects of age on brain iron concentration and/or cognition. Here, we explored these issues in a sample of seventy-three healthy older adults (61–86 years old), while controlling for several factors such as age, gender, years of education, physical fitness and alcohol-intake. Quantitative susceptibility mapping was used for assessment of brain iron concentration and participants performed an N-Back paradigm to evaluate working memory performance. Nutritional-intake was assessed via a validated questionnaire. Nutrients were grouped into nutrition factors based on previous literature and factor analysis. One factor, comprised of vitamin E, lysine, DHA omega-3 and LA omega-6 PUFA, representing food groups such as nuts, healthy oils and fish, moderated the effects of age on both brain iron concentration and working memory performance, suggesting that these nutrients may slow the rate of brain iron accumulation and working memory declines in aging.

Published
2021

44. Brain arteriolosclerosis

Author

Brittney L. Blevins, Harry V. Vinters, Seth Love, Donna M. Wilcock, Lea T. Grinberg, Julie A. Schneider, Rajesh N. Kalaria, Yuriko Katsumata, Brian T. Gold, Danny J. J. Wang, Samantha J. Ma, Lincoln M. P. Shade, David W. Fardo, Anika M. S. Hartz, Gregory A. Jicha, Karin B. Nelson, Shino D. Magaki, Frederick A. Schmitt, Merilee A. Teylan, Eseosa T. Ighodaro, Panhavuth Phe, Erin L. Abner, Matthew D. Cykowski, Linda J. Van Eldik, and Peter T. Nelson

Subjects
Aging, senescence, Clinical Sciences, cAVU, Neuroimaging, Neurodegenerative, Alzheimer's Disease, Article, Pathology and Forensic Medicine, Cellular and Molecular Neuroscience, Vascular Cognitive Impairment/Dementia, 80 and over, Acquired Cognitive Impairment, 2.1 Biological and endogenous factors, Animals, Humans, Aetiology, Alzheimer's Disease Related Dementias (ADRD), Aged, Aged, 80 and over, neuropathology, Neurology & Neurosurgery, neuroimaging, arteriosclerosis, Neurosciences, Alzheimer's Disease including Alzheimer's Disease Related Dementias (AD/ADRD), Brain, Intracranial Arteriosclerosis, Brain Disorders, Arterioles, Cerebral Amyloid Angiopathy, Neurological, Dementia, Mental health, Neurology (clinical), Cognition Disorders, SVD
Abstract

Brain arteriolosclerosis (B-ASC), characterized by pathologic arteriolar wall thickening, is a common finding at autopsy in aged persons and is associated with cognitive impairment. Hypertension and diabetes are widely recognized as risk factors for B-ASC. Recent research indicates other and more complex risk factors and pathogenetic mechanisms. Here, we describe aspects of the unique architecture of brain arterioles, histomorphologic features of B-ASC, relevant neuroimaging findings, epidemiology and association with aging, established genetic risk factors, and the co-occurrence of B-ASC with other neuropathologic conditions such as Alzheimer's disease and limbic-predominant age-related TDP-43 encephalopathy (LATE). There may also be complex physiologic interactions between metabolic syndrome (e.g., hypertension and inflammation) and brain arteriolar pathology. Although there is no universally applied diagnostic methodology, several classification schemes and neuroimaging techniques are used to diagnose and categorize cerebral small vessel disease pathologies that include B-ASC, microinfarcts, microbleeds, lacunar infarcts, and cerebral amyloid angiopathy (CAA). In clinical-pathologic studies that factored incomorbid diseases, B-ASC was independently associated with impairments of global cognition, episodic memory, working memory, and perceptual speed, and has been linked to autonomic dysfunction and motor symptoms including parkinsonism. We conclude by discussing critical knowledge gaps related to B-ASC and suggest that there are probably subcategories of B-ASC that differ in pathogenesis. Observed in over 80% of autopsied individuals beyond 80years of age, B-ASC is a complex and under-studied contributor to neurologic disability.

Published
2021
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45. Development of a protocol to assess within-subject, regional white matter hyperintensity changes in aging and dementia

Author

Charles D. Smith, Larry B. Goldstein, Erin L. Abner, David K. Powell, Justin M. Barber, Ahmed A. Bahrani, Anders H. Andersen, Donna M. Wilcock, Zachary Winder, Linda J. Van Eldik, Gregory A. Jicha, Brandon D. Ramey, Brian T. Gold, and Omar M. Al-Janabi

Subjects
0301 basic medicine, medicine.medical_specialty, Aging, Fluid-attenuated inversion recovery, Article, Correlation, 03 medical and health sciences, 0302 clinical medicine, Physical medicine and rehabilitation, medicine, Dementia, Humans, Cognitive Dysfunction, Cognitive decline, Protocol (science), business.industry, General Neuroscience, medicine.disease, Magnetic Resonance Imaging, White Matter, Hyperintensity, Regression, 030104 developmental biology, White matter hyperintensity, business, 030217 neurology & neurosurgery
Abstract

BACKGROUND: White matter hyperintensities (WMH), associated with both dementia risk and progression, can individually progress, remain stable, or even regress influencing cognitive decline related to specific cerebrovascular-risks. This study details the development and validation of a registration protocol to assess regional, within-subject, longitudinal WMH changes (ΔWMH) that is currently lacking in the field. NEW METHOD: 3D-FLAIR images (baseline and one-year-visit) were used for protocol development and validation. The method was validated by assessing the correlation between forward and reverse longitudinal registration, and between summated regional progression-regression volumes and Global ΔWMH. The clinical relevance of growth-regression ΔWMH were explored in relation to an executive function test. RESULTS: MRI scans for 79 participants (73.5±8.8 years) were used in this study. Global ΔWMH vs. summated regional progression-regression volumes were highly associated (r 2 =0.90; p-value

Published
2021

46. Water exchange across blood‐brain barrier is associated with CSF amyloid‐42 level in healthy older adults

Author

Xingfeng Shao, Danny J.J. Wang, and Brian T. Gold

Subjects
medicine.medical_specialty, Amyloid, Epidemiology, business.industry, Health Policy, Water exchange, Blood–brain barrier, Psychiatry and Mental health, Cellular and Molecular Neuroscience, Endocrinology, medicine.anatomical_structure, Developmental Neuroscience, Internal medicine, medicine, Neurology (clinical), Geriatrics and Gerontology, business
Published
2020
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47. Distinct White Matter Changes Associated with Cerebrospinal Fluid Amyloid-β1-42 and Hypertension

Author

Christopher A. Brown, Leslie M. Shaw, Peter T. Nelson, Richard R. Murphy, Charles D. Smith, John Q. Trojanowski, Omar M. Al-Janabi, Brian T. Gold, Gregory A. Jicha, Nathan F. Johnson, Erin L. Abner, Ahmed A. Bahrani, Donna M. Wilcock, Larry B. Goldstein, and Justin M. Barber

Subjects
0301 basic medicine, Pathology, medicine.medical_specialty, Disease, White matter, 03 medical and health sciences, 0302 clinical medicine, Cerebrospinal fluid, Fractional anisotropy, medicine, cardiovascular diseases, medicine.diagnostic_test, business.industry, General Neuroscience, Magnetic resonance imaging, General Medicine, medicine.disease, Hyperintensity, Psychiatry and Mental health, Clinical Psychology, 030104 developmental biology, medicine.anatomical_structure, Geriatrics and Gerontology, Alzheimer's disease, business, 030217 neurology & neurosurgery, Diffusion MRI
Abstract

BACKGROUND Alzheimer's disease (AD) pathology and hypertension (HTN) are risk factors for development of white matter (WM) alterations and might be independently associated with these alterations in older adults. OBJECTIVE To evaluate the independent and synergistic effects of HTN and AD pathology on WM alterations. METHODS Clinical measures of cerebrovascular disease risk were collected from 62 participants in University of Kentucky Alzheimer's Disease Center studies who also had cerebrospinal fluid (CSF) sampling and MRI brain scans. CSF Aβ1-42 levels were measured as a marker of AD, and fluid-attenuated inversion recovery imaging and diffusion tensor imaging were obtained to assess WM macro- and microstructural properties. Linear regression analyses were used to assess the relationships among WM alterations, cerebrovascular disease risk, and AD pathology. Voxelwise analyses were performed to examine spatial patterns of WM alteration associated with each pathology. RESULTS HTN and CSF Aβ1-42 levels were each associated with white matter hyperintensities (WMH). Also, CSF Aβ1-42 levels were associated with alterations in normal appearing white matter fractional anisotropy (NAWM-FA), whereas HTN was marginally associated with alterations in NAWM-FA. Linear regression analyses demonstrated significant main effects of HTN and CSF Aβ1-42 on WMH volume, but no significant HTN×CSF Aβ1-42 interaction. Furthermore, voxelwise analyses showed unique patterns of WM alteration associated with hypertension and CSF Aβ1-42. CONCLUSION Associations of HTN and lower CSF Aβ1-42 with WM alteration were statistically and spatially distinct, suggesting independent rather than synergistic effects. Considering such spatial distributions may improve diagnostic accuracy to address each underlying pathology.

Published
2018
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48. A Mild Traumatic Brain Injury in Mice Produces Lasting Deficits in Brain Metabolism

Author

Teresa Macheda, Adam D. Bachstetter, Danielle N. Lyons, Hemendra J. Vekaria, Patrick G. Sullivan, David K. Powell, Ai-Ling Lin, Brian T. Gold, and Vikas Bakshi

Subjects
0301 basic medicine, medicine.medical_specialty, Bioenergetics, Traumatic brain injury, Mitochondrion, Phosphocreatine, Mice, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Internal medicine, Concussion, medicine, Animals, Choline, Brain Concussion, business.industry, biomarkers, Brain, Original Articles, medicine.disease, arterial spin labeling, magnetic resonance spectroscopy, mitochondria, Mice, Inbred C57BL, 030104 developmental biology, Endocrinology, chemistry, Cerebral blood flow, Closed head injury, concussion, Neurology (clinical), Energy Metabolism, business, 030217 neurology & neurosurgery
Abstract

Metabolic uncoupling has been well-characterized during the first minutes-to-days after a traumatic brain injury (TBI), yet mitochondrial bioenergetics during the weeks-to-months after a brain injury is poorly defined, particularly after a mild TBI. We hypothesized that a closed head injury (CHI) would be associated with deficits in mitochondrial bioenergetics at one month after the injury. A significant decrease in state-III (adenosine triphosphate production) and state-V (complex-I) driven mitochondrial respiration was found at one month post-injury in adult C57Bl/6J mice. Isolation of synaptic mitochondria demonstrated that the deficit in state-III and state-V was primarily neuronal. Injured mice had a temporally consistent deficit in memory recall at one month post-injury. Using proton magnetic resonance spectroscopy (1H MRS) at 7-Tesla, we found significant decreases in phosphocreatine, N-Acetylaspartic acid, and total choline. We also found regional variations in cerebral blood flow, including both hypo- and hyperperfusion, as measured by a pseudocontinuous arterial spin labeling MR sequence. Our results highlight a chronic deficit in mitochondrial bioenergetics associated with a CHI that may lead toward a novel approach for neurorestoration after a mild TBI. MRS provides a potential biomarker for assessing the efficacy of candidate treatments targeted at improving mitochondrial bioenergetics.

Published
2018
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49. Age and Alzheimer's pathology disrupt default mode network functioning via alterations in white matter microstructure but not hyperintensities

Author

Charles D. Smith, Yang Jiang, Christopher A. Brown, and Brian T. Gold

Subjects
Adult, Male, 0301 basic medicine, Pathology, medicine.medical_specialty, Cognitive Neuroscience, Experimental and Cognitive Psychology, Fluid-attenuated inversion recovery, Article, White matter, 03 medical and health sciences, Cognition, 0302 clinical medicine, Alzheimer Disease, Task Performance and Analysis, medicine, Humans, Default mode network, Aged, Aged, 80 and over, Brain Mapping, Working memory, Age Factors, Brain, Magnetic Resonance Imaging, White Matter, White matter microstructure, Hyperintensity, Memory, Short-Term, 030104 developmental biology, Neuropsychology and Physiological Psychology, medicine.anatomical_structure, Younger adults, Female, Nerve Net, Psychology, human activities, 030217 neurology & neurosurgery, Diffusion MRI
Abstract

The default mode network (DMN) comprises defined brain regions contributing to internally-directed thought processes. Reductions in task-induced deactivation in the DMN have been associated with increasing age and poorer executive task performance, but factors underlying these functional changes remain unclear. We investigated contributions of white matter (WM) microstructure, WM hyperintensities (WMH) and Alzheimer's pathology to age-related alterations in DMN function. Thirty-five cognitively normal older adults and 29 younger adults underwent working memory task fMRI and diffusion tensor imaging. In the older adults, we measured cerebrospinal fluid tau and Aβ(42) (markers of AD pathology), and WMH on FLAIR imaging (marker of cerebrovascular disease). We identified a set of regions showing DMN deactivation and a set of inter-connecting WM tracts (DMN-WM) common to both age groups. There were negative associations between DMN deactivation and task performance in older adults, consistent with previous studies. Decreased DMN deactivation was associated with AD pathology and WM microstructure but not with WMH volume. Mediation analyses showed that WM microstructure mediated declines in DMN deactivation associated with both aging and AD pathology. Together these results suggest that AD pathology may exert a “second-hit” on WM microstructure, over-and-above the effects of age, both contributing to diminished DMN deactivation in older adults.

Published
2018
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50. A Combination of Essential Fatty Acids, Panax Ginseng Extract, and Green Tea Catechins Modifies Brain fMRI Signals in Healthy Older Adults

Author

Sreekrishna R. Pillai, Owen T. Carmichael, Jeffrey N. Keller, Denis G. Kay, Brian T. Gold, A. McLellan, and Preetham Shankapal

Subjects
Male, 0301 basic medicine, Brain activity and meditation, Rest, Precuneus, Panax, Prefrontal Cortex, Medicine (miscellaneous), Pharmacology, Gyrus Cinguli, behavioral disciplines and activities, Catechin, 03 medical and health sciences, Cognition, Fish Oils, 0302 clinical medicine, Double-Blind Method, Parietal Lobe, Fatty Acids, Omega-3, Task Performance and Analysis, Humans, Medicine, Middle frontal gyrus, Anterior cingulate cortex, Aged, Nutrition and Dietetics, Fatty Acids, Essential, Tea, Plant Extracts, business.industry, Brain, Medial frontal gyrus, Magnetic Resonance Imaging, 030104 developmental biology, medicine.anatomical_structure, Posterior cingulate, Dietary Supplements, Stroop Test, Digit symbol substitution test, Female, Geriatrics and Gerontology, business, 030217 neurology & neurosurgery, Stroop effect
Abstract

To assess the effects of a combination of omega 3 essential fatty acids, green tea catechins, and ginsenosides on cognition and brain functioning in healthy older adults.Double-blind, placebo-controlled, crossover design randomized controlled trial with 26-day intervention phases and a 30-day washout period.The Institute for Dementia Research and Prevention at the Pennington Biomedical Research Center.Ten independently-living, cognitively-healthy older adults (mean age: 67.3 + 2.01 years).Daily consumption of an investigational product (trade name "Cerbella TM") consisting of an emulsified liquid combination of standardized fish oil, panax ginseng extract, and green tea catechins in a flavored base of lecithin phospholipids optimized to maximize bioavailability of the active ingredients.Before and after supplementation with the investigational product or placebo, participants completed cognitive tests including the Mini Mental State Exam (MMSE), Stroop test, Digit Symbol Substitution Test (DSST), and Immediate and Delayed Recall tests, as well as functional magnetic resonance imaging (fMRI) during a standard cognitive task switching paradigm.Performance on the MMSE, Stroop test, and DSST increased significantly over one month of supplementation with the investigational product (one-sample t tests, p.05) although differences between these changes and corresponding changes during supplementation with placebo were not significant (two-sample t tests, p.05). During supplementation with the investigational product, brain activation during task performance increased significantly more than during supplementation with placebo in brain regions known to be activated by this task (anterior and posterior cingulate cortex). Functional connectivity during task execution between task regions (middle frontal gyrus and anterior cingulate cortex) increased significantly during supplementation with the investigational product, relative to placebo. Functional connectivity during rest between task regions (precentral gyrus and middle frontal gyrus) and default mode network regions (medial frontal gyrus and precuneus) decreased during supplementation with the investigational product relative to placebo, suggesting greater segregation of task and rest related brain activity.One-month supplementation with a combination of omega 3 essential fatty acids, green tea catechins, and ginsenosides was associated with suggestive changes in cognitive functioning as well as modification of brain activation and brain functional connectivity in cognitively healthy older adults.

Published
2018
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