Your search keyword '"Beller, Allison"' showing total 3 results

1. Association of Traumatic Brain Injury with Late Life Neuropathological Outcomes in a Community-Based Cohort.

Author

Gibbons, Laura E., Power, Melinda C., Walker, Rod L., Kumar, Raj G., Murphy, Alia, Latimer, Caitlin S., Nolan, Amber L., Melief, Erica J., Beller, Allison, Bogdani, Marika, Keene, C. Dirk, Larson, Eric B., Crane, Paul K., and Dams-O'Connor, Kristen

Subjects

BRAIN injuries, ALZHEIMER'S disease, HIPPOCAMPAL sclerosis, CEREBRAL atrophy, AMYLOID plaque

Abstract

Background: Prior studies into the association of head trauma with neuropathology have been limited by incomplete lifetime neurotrauma exposure characterization. Objective: To investigate the neuropathological sequelae of traumatic brain injury (TBI) in an autopsy sample using three sources of TBI ascertainment, weighting findings to reflect associations in the larger, community-based cohort. Methods: Self-reported head trauma with loss of consciousness (LOC) exposure was collected in biennial clinic visits from 780 older adults from the Adult Changes in Thought study who later died and donated their brain for research. Self-report data were supplemented with medical record abstraction, and, for 244 people, structured interviews on lifetime head trauma. Neuropathology outcomes included Braak stage, CERAD neuritic plaque density, Lewy body distribution, vascular pathology, hippocampal sclerosis, and cerebral/cortical atrophy. Exposures were TBI with or without LOC. Modified Poisson regressions adjusting for age, sex, education, and APOE ɛ4 genotype were weighted back to the full cohort of 5,546 participants. Results: TBI with LOC was associated with the presence of cerebral cortical atrophy (Relative Risk 1.22, 95% CI 1.02, 1.42). None of the other outcomes was associated with TBI with or without LOC. Conclusion: TBI with LOC was associated with increased risk of cerebral cortical atrophy. Despite our enhanced TBI ascertainment, we found no association with the Alzheimer's disease-related neuropathologic outcomes among people who survived to at least age 65 without dementia. This suggests the pathophysiological processes underlying post-traumatic neurodegeneration are distinct from the hallmark pathologies of Alzheimer's disease. [ABSTRACT FROM AUTHOR]

Published

2023

2. The Delayed Neuropathological Consequences of Traumatic Brain Injury in a Community-Based Sample.

Author

Postupna, Nadia, Rose, Shannon E., Gibbons, Laura E., Coleman, Natalie M., Hellstern, Leanne L., Ritchie, Kayla, Wilson, Angela M., Cudaback, Eiron, Li, Xianwu, Melief, Erica J., Beller, Allison E., Miller, Jeremy A., Nolan, Amber L., Marshall, Desiree A., Walker, Rod, Montine, Thomas J., Larson, Eric B., Crane, Paul K., Ellenbogen, Richard G., and Lein, Edward S.

Subjects

BRAIN injuries, DIAGNOSIS, MASS analysis (Spectrometry), CHRONIC traumatic encephalopathy, APOLIPOPROTEIN E4, ALZHEIMER'S disease, GENE expression

Abstract

The late neuropathological effects of traumatic brain injury have yet to be fully elucidated, particularly with respect to community-based cohorts. To contribute to this critical gap in knowledge, we designed a multimodal neuropathological study, integrating traditional and quantitative approaches to detect pathologic changes in 532 consecutive brain autopsies from participants in the Adult Changes in Thought (ACT) study. Diagnostic evaluation including assessment for chronic traumatic encephalopathy (CTE) and quantitative immunoassay-based methods were deployed to examine levels of pathological (hyperphosphorylated) tau (pTau) and amyloid (A) β in brains from ACT participants with (n = 107) and without (n = 425) history of remote TBI with loss of consciousness (w/LOC). Further neuropathological assessments included immunohistochemistry for α-synuclein and phospho-TDP-43 pathology and astro- (GFAP) and micro- (Iba1) gliosis, mass spectrometry analysis of free radical injury, and gene expression evaluation (RNA sequencing) in a smaller sub-cohort of matched samples (49 cases with TBI and 49 non-exposed matched controls). Out of 532 cases, only 3 (0.6%–none with TBI w/LOC history) showed evidence of the neuropathologic signature of chronic traumatic encephalopathy (CTE). Across the entire cohort, the levels of pTau and Aβ showed expected differences for brain region (higher levels in temporal cortex), neuropathological diagnosis (higher in participants with Alzheimer's disease), and APOE genotype (higher in participants with one or more APOE ε4 allele). However, no differences in PHF-tau or Aβ1−42 were identified by Histelide with respect to the history of TBI w/LOC. In a subset of TBI cases with more carefully matched control samples and more extensive analysis, those with TBI w/LOC history had higher levels of hippocampal pTau but no significant differences in Aβ, α-synuclein, pTDP-43, GFAP, Iba1, or free radical injury. RNA-sequencing also did not reveal significant gene expression associated with any measure of TBI exposure. Combined, these findings suggest long term neuropathological changes associated with TBI w/LOC may be subtle, involve non-traditional pathways of neurotoxicity and neurodegeneration, and/or differ from those in autopsy cohorts specifically selected for neurotrauma exposure. [ABSTRACT FROM AUTHOR]

Published

2021

3. Vasodilator dysfunction and oligodendrocyte dysmaturation in aging white matter.

Author

Bagi, Zsolt, Brandner, Dieter D., Le, Phuong, McNeal, David W., Gong, Xi, Dou, Huijuan, Fulton, David J., Beller, Allison, Ngyuen, Thuan, Larson, Eric B., Montine, Thomas J., Keene, C. Dirk, and Back, Stephen A.

Subjects

OLIGODENDROGLIA, BRAIN injuries, TREATMENT of dementia, NEUROLOGICAL disorders, ALZHEIMER'S disease, OXIDATIVE stress

Abstract

Objective: Microvascular brain injury (mVBI) is a common pathological correlate of vascular contributions to cognitive impairment and dementia (VCID) that leads to white matter (WM) injury (WMI). VCID appears to arise from chronic recurrent white matter ischemia that triggers oxidative stress and an increase in total oligodendrocyte lineage cells. We hypothesized that mVBI involves vasodilator dysfunction of white matter penetrating arterioles and aberrant oligodendrocyte progenitor cell (OPC) responses to WMI.Methods: We analyzed cases of mVBI with low Alzheimer's disease neuropathological change in prefrontal cortex WM from rapid autopsies in a population-based cohort where VCID frequently occurs. Arteriolar vasodilator function was quantified by videomicroscopy. OPC maturation was quantified using lineage specific markers.Results: Acetylcholine-mediated arteriolar dilation in mVBI was significantly reduced in WM penetrators relative to pial arterioles. Astrogliosis-defined WMI was positively associated with increased OPCs and was negatively associated with decreased mature oligodendrocytes.Interpretation: Selectively impaired vasodilator function of WM penetrating arterioles in mVBI occurs in association with aberrant differentiation of OPCs in WMI, which supports that myelination disturbances in VCID are related to disrupted maturation of myelinating oligodendrocytes. Ann Neurol 2018;83:142-152. [ABSTRACT FROM AUTHOR]

Published

2018