Browsing by Author "Tudorascu, Dana"
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Item Cerebrovascular disease emerges with age and Alzheimer's disease in adults with Down syndrome(Springer Nature, 2024-05-29) Lao, Patrick; Edwards, Natalie; Flores‑Aguilar, Lisi; Alshikho, Mohamad; Rizvi, Batool; Tudorascu, Dana; Rosas, H. Diana; Yassa, Michael; Christian, Bradley T.; Mapstone, Mark; Handen, Benjamin; Zimmerman, Molly E.; Gutierrez, Jose; Wilcock, Donna; Head, Elizabeth; Brickman, Adam M.; Neurology, School of MedicineAdults with Down syndrome have a genetic form of Alzheimer's disease (AD) and evidence of cerebrovascular disease across the AD continuum, despite few systemic vascular risk factors. The onset and progression of AD in Down syndrome is highly age-dependent, but it is unknown at what age cerebrovascular disease emerges and what factors influence its severity. In the Alzheimer's Biomarker Consortium-Down Syndrome study (ABC-DS; n = 242; age = 25-72), we estimated the age inflection point at which MRI-based white matter hyperintensities (WMH), enlarged perivascular spaces (PVS), microbleeds, and infarcts emerge in relation to demographic data, risk factors, amyloid and tau, and AD diagnosis. Enlarged PVS and infarcts appear to develop in the early 30s, while microbleeds, WMH, amyloid, and tau emerge in the mid to late 30s. Age-residualized WMH were higher in women, in individuals with dementia, and with lower body mass index. Participants with hypertension and APOE-ε4 had higher age-residualized PVS and microbleeds, respectively. Lifespan trajectories demonstrate a dramatic cerebrovascular profile in adults with Down syndrome that appears to evolve developmentally in parallel with AD pathophysiology approximately two decades prior to dementia symptoms.Item Independent and interactive contributions of cerebrovascular disease, neuroinflammation, and tau pathophysiology to Alzheimer’s disease‐related diagnostic conversion in adults with Down syndrome(Wiley, 2025-01-09) Edwards, Natalie C.; Lao, Patrick J.; Alshikho, Mohamad J.; Rizvi, Batool; Flores Aguilar, Lisi; Petersen, Melissa; O’Bryant, Sid E.; Tudorascu, Dana; Handen, Benjamin L.; Gutierrez, Jose; Wilcock, Donna M.; Head, Elizabeth; Brickman, Adam M.; Neurology, School of MedicineBackground: By age 40 years, adults with Down syndrome (DS) develop Alzheimer’s disease (AD) pathology and progress to dementia in their 60s. Despite minimal systemic vascular risk factors, individuals with DS have MRI evidence of cerebrovascular injury that progresses with AD severity, suggesting an intrinsic vascular component to DS‐AD that may interact with neuroinflammatory processes to promote tau pathology and cognitive decline. In the current study we examined whether cerebrovascular disease (CVD) burden and inflammation/astrocytosis independently and interactively were associated with incident diagnosis among adults with DS. Method: This study included 149 participants from the Alzheimer Biomarkers Consortium – Down Syndrome (baseline mean age[SD]=44.6[9] years) with available baseline MRI, plasma biomarker data, and at least two time‐points of clinical consensus diagnosis data (i.e., cognitively stable, mild cognitive impairment [MCI], and clinical AD) who were classified as cognitively stable or MCI at baseline. Logistic regression models assessed if baseline small vessel CVD, operationalized as white matter hyperintensity (WMH) volume, and plasma glial fibrillary acidic protein (GFAP), Aβ42/Aβ40, p‐tau217, and neurofilament light (NfL) concentrations are associated with conversion from a milder diagnosis to a more severe clinical diagnosis. Mediation models examined relationships between biomarkers and diagnostic conversion. All models adjusted for study site, sex/gender, latency between visit dates, and age group (below or above/equal to the median age of the sample). Result: Diagnostic conversion occurred in 26% of the sample. Higher baseline WMH volume (OR 1.08 [1.01, 1.81]), GFAP (OR 1.006 [1.003, 1.01]), and p‐tau217 (OR 20.56 [5.01, 112.43]), but not NfL nor Aβ42/Aβ40 concentrations were associated with higher odds of conversion to more severe cognitive impairment. GFAP concentration mediated the relationship between WMH and diagnostic conversion (ACME 0.05 [0.01, 0.1], p=0.006). P‐tau217 concentration mediated the relationship between GFAP and diagnostic conversion (ACME 0.13 [0.05, 0.23], p=0.004). Conclusion: Our findings suggest that among individuals with DS, CVD promotes AD‐related clinical progression by increasing astrocytosis which, in turn, promotes tau pathophysiology and downstream MCI and AD incidence. The results implicate CVD and its interface with inflammation as a core feature of AD in DS.Item Longitudinal changes in neuroimaging markers of small vessel disease: Implications for clinical trials(Wiley, 2025-01-09) Lao, Patrick J.; Edwards, Natalie C.; Flores-Aguilar, Lisi; Rizvi, Batool; Smith, Anna C.; Tudorascu, Dana; Rosas, H. Diana; Yassa, Michael A.; Handen, Benjamin L.; Christian, Bradley T.; Gutierrez, Jose; Wilcock, Donna M.; Head, Elizabeth; Brickman, Adam M.; Neurology, School of MedicineBackground: Adults with Down syndrome (DS) overproduce amyloid precursor protein, develop amyloid plaques at an early age, and are diagnosed with Alzheimer’s disease (AD) dementia at a high frequency. There is emerging evidence that cerebrovascular disease is elevated across the AD continuum in older adults with DS, independent of age and vascular risk, around the same time as amyloid and tau, but the regional rates of accumulation within individuals are unknown. Method: Adults with DS from the multisite Alzheimer’s Biomarker Consortium‐Down Syndrome study (ABC‐DS; n=78; age=50±6; 40% women) have two timepoints of T2 FLAIR MRI (1.2±0.6 years apart) quantified as white matter hyperintensity volume (WMH), which represents ischemic small vessel disease. Participants underwent consensus diagnosis at both timepoints (59% Cognitively‐Stable at both timepoints, 9% Cognitively‐Stable to MCI‐DS, 8% MCI‐DS at both timepoints, 14% MCI‐DS to AD, 10% AD at both timepoints). The annual rate of change in frontal, temporal, parietal, and occipital WMH volume was assessed, adjusting for baseline WMH volume. Result: The annual rate of change in frontal WMH was not significantly different by diagnosis. The annual rate of change in temporal (0.7 [0.4, 1.1], p<0.001) and in occipital WMH (1.6 [0.7, 2.5], p=0.0008) was faster in the group that remained AD at both timepoints compared to the group that remained Cognitively‐Stable at both timepoints. The annual rate of change in parietal WMH was greater in the group that progressed from MCI‐DS to AD (0.6 [0.1, 1.0], p=0.02) and in the group that remained AD at both timepoints (1.1 [0.6, 1.7], p=0.0002) compared to the group that remained Cognitively‐Stable at both timepoints. Conclusion: In adults with DS, parietal WMH accumulates fastest in those that progress to or have a diagnosis of AD, while temporal and occipital WMH accumulate fastest in those with a diagnosis of AD. Posteriorly distributed WMH may have specificity for AD progression in adults with DS with implications for anti‐amyloid therapeutics that have cerebrovascular side effects.