Modifiable dementia risk factors and AT(N) biomarkers: findings from the EPAD cohort.

Introduction: Modifiable risk factors account for a substantial proportion of Alzheimer's disease (AD) cases and we currently have a discrete AT(N) biomarker profile for AD biomarkers: amyloid (A), p-tau (T), and neurodegeneration (N). Here, we investigated how modifiable risk factors relate to the three hallmark AT(N) biomarkers of AD. Methods: Participants from the European Prevention of Alzheimer's Dementia (EPAD) study underwent clinical assessments, brain magnetic resonance imaging, and cerebrospinal fluid collection and analysis. Generalized additive models (GAMs) with penalized regression splines were modeled in the AD Workbench on the NTKApp. Results: A total of 1,434 participants were included (56% women, 39% APOE ε4+) with an average age of 65.5 (± 7.2) years. We found that modifiable risk factors of less education (t = 3.9, p < 0.001), less exercise (t = 2.1, p = 0.034), traumatic brain injury (t = -2.1, p = 0.036), and higher body mass index (t = -4.5, p < 0.001) were all significantly associated with higher AD biomarker burden. Discussion: This cross-sectional study provides further support for modifiable risk factors displaying neuroprotective associations with the characteristic AT(N) biomarkers of AD.

Modifiable risk factors for dementia, cognition, and plasma phosphorylated tau 181 in a large-scale cohort of Australian older adults.

Alzheimer's disease (AD), the most common form of dementia, is preceded by years of silent pathological change. Our objective was to examine the associations between modifiable dementia risk factors, cognition, and plasma phosphorylated p-tau 181, a hallmark biomarker of AD in a large-scale community cohort. Participants (n = 738, mean age 65.41 years) from the Island Study Linking Ageing and Neurodegenerative Disease responded to online assessments collecting demographics, adherence to dementia risk factors and cognitive function, and provided a blood sample for analysis. We found less education was significantly associated with lower cognitive scores. Modifiable dementia risk factors were not associated with plasma p-tau 181. Further, we did not observe any significant relationships between plasma p-tau 181 and cognition. Nonmodifiable factors such as age, education, sex, and apolipoprotein E epsilon 4 displayed significant associations with cognition and plasma p-tau 181. In a cognitively healthy community cohort of Tasmanian Australians, we did not observe any associations between modifiable risk factors for dementia and plasma p-tau 181. Nonmodifiable risk factors were associated with both cognition and plasma p-tau. This contributes to a growing body of evidence investigating confounding factors in the interpretation of blood-based biomarkers for dementia.

Repeat propofol anesthesia does not exacerbate plaque deposition or synapse loss in APP/PS1 Alzheimer's disease mice.

BACKGROUND: There is increasing interest in whether anesthetic agents affect the risk or progression of Alzheimer's disease (AD). To mitigate many of the methodological issues encountered in human retrospective cohort studies we have used a transgenic model of AD to investigate the effect of propofol on AD pathology. METHODS: Six month-old amyloid precursor protein/presenilin 1 (APP/PS1) transgenic AD mice and control mice were exposed to 3 doses of propofol (200 mg/kg) or vehicle, delivered at monthly intervals. RESULTS: There was no difference in the extent of ß-amyloid (Aß) immunolabeled plaque deposition in APP/PS1 mice in vehicle versus propofol treatment groups. We also detected no difference in plaque-associated synapse loss in APP/PS1 mice following repeat propofol exposure relative to vehicle. Western blotting indicated that there was no difference in post-synaptic density protein 95, synaptophysin or glutamic acid decarboxylase 65/67 expression in control or APP/PS1 mice subjected to repeat propofol treatment relative to vehicle. CONCLUSIONS: These data suggest that repeat propofol anesthesia may not exacerbate plaque deposition or associated synapse loss in AD. Interestingly, this data also provides some of the first evidence suggesting that repeat propofol exposure in adult wild-type mice does not result in robust long-term alterations in the levels of key excitatory and inhibitory synaptic markers.