Plasma NT1-tau correlates with age and cognitive decline in Alzheimer’s Disease at-risk populations and Down syndrome cohorts

New blood-based biomarkers may serve as a more reliable and practical method to identify patients with or at risk for AD and understand pathobiology when imaging or CSF acquisition is difficult. Individuals with Down Syndrome are at similar high risk of developing AD pathology as carriers of autosomal dominant point mutations in the Amyloid-β pathway. Ultrasensitive plasma immunoassays for tau N-terminal fragment (NT1-tau) and Aβ isoforms predict cognitive decline and pathology. Plasma NT1-tau and oAβ levels were measured in an observational cohort (N=213) and showed correlation with cerebral spinal fluid samples sent for BWH clinic approved AD biomarker testing (ADmark and ADEVL). Plasma NT1-tau, Aβ37, Aβ40, and Aβ42 levels were measured in a longitudinal discovery cohort (N = 85 participants, 220 samples) to predict AD in a cross-sectional validation cohort (N = 297). Linear mixed models assessed change in the discovery cohort over time, with covariates including baseline age, sex, level of intellectual disability, consensus diagnosis, and performance on the Dementia Scale for People with Learning Disabilities. NT1-tau correlates with age and declining cognitive performance among people with DS. Further validation of NT1-tau and other plasma biomarkers of AD pathology in large, heterogeneous DS cohorts is important for clinical utility.