Effects of cerebrovascular disease on tau progression and cognitive decline in Alzheimer’s disease

Abstract

AbstractBackgroundRecent post‐mortem studies suggest that cerebrovascular disease contributes to Alzheimer’s disease (AD) pathophysiology and clinical progression. In particular, cerebral amyloid angiopathy is highly common in AD and has been linked to faster cognitive decline. Yet, in‐vivo evidence on the contribution of cerebrovascular disease to pathobiological and/or clinical AD progression is rare. Thus, we assessed in‐vivo, whether i) higher cerebrovascular burden is associated with accelerated progression of primary AD pathology and ii) whether cerebrovascular burden synergistically accelerates AD‐related cognitive decline.MethodWe included n = 256 participants from the Alzheimer’s Disease Neuroimaging Initiative (ADNI) across the AD spectrum with longitudinal 18F‐flortaucipir tau‐PET (follow‐up∼2.30±1.32 years), 18F‐florbetapir or 18F‐florbetaben Aß‐PET transformed to centiloid (A7: n = 85 Cognitively normal (CN); Aß+: n = 83 CN, n = 57 Mild Cognitive Impairment, n = 31 Dementia). We focused on global white matter hyperintensity (WMH) volume adjusted to intracranial volume and microhemorrhage (MCH) count as well‐established cerebrovascular disease markers. Cognition was probed through the AD Assessment Scale Cognition 13‐item scale (ADAS‐13). Subject‐specific annual changes in tau‐PET and cognition were calculated via linear mixed models, including random slope and intercept. To enhance reproducibility of our findings, statistical analyses were pre‐specified at AsPredicted.org. All statistical models were controlled for age, sex and APOE.ResultUsing linear regression, we found no main effect of cerebrovascular disease markers on baseline amyloid‐PET or tau‐PET (ps>0.05). Further, higher cerebrovascular burden was not associated with faster Aß‐related tau‐PET SUVR increase (Fig. 1A+B). In contrast, higher cerebrovascular burden was associated with accelerated cognitive decline. Specifically, interaction models revealed that a higher MCH count was associated with faster cognitive decline at higher tau levels (Fig. 1C), while higher white matter hyperintensity burden was associated with faster cognitive decline at lower tau levels (Fig. 1D).ConclusionWe found no effect of cerebrovascular disease on primary AD pathology. In contrast, cerebrovascular disease was linked to accelerated tau‐associated cognitive decline. This suggests that cerebrovascular disease may not modulate pathobiological AD trajectories but rather add synergistically to AD symptom severity. This has important therapeutic implications, as treating cerebrovascular disease in addition to primary AD pathology (e.g. amyloid) may yield largest clinical efficacy.