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| Home > Publications Database > Plasma p‐tau217 as a suitable biomarker for monitoring cognitive changes in Alzheimer’s disease |
| Abstract/Journal Article | DZNE-2025-01502 |
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2025
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Please use a persistent id in citations: doi:10.1002/alz70862_110180
Abstract: With the approval of anti-amyloid therapies in Alzheimer's disease (AD), surrogate biomarkers are urgently needed to monitor treatment effects that translate into clinical benefits. Candidate biomarkers, including amyloid-PET, tau-PET, plasma phosphorylated tau (p-tau), and MRI-assessed atrophy, capture core pathophysiological changes in AD. While cross-sectional biomarker assessments are critical for diagnosis and staging, biomarker change rates may better reflect disease dynamics, making them more suitable for monitoring treatment efficacy. Therefore, we determined which biomarker most effectively tracks cognitive changes in AD, identifying those best suited for efficient monitoring of disease-modifying treatments.We leveraged ADNI (N = 108) and A4 (N = 151) participants with longitudinal AD biomarker data (global amyloid-PET, temporal meta tau-PET, plasma p-tau217, MRI-assessed cortical thickness in the AD signature region) together with cognitive assessments (ADNI: MMSE, ADAS13, CDR-SB; A4: MMSE, PACC). Linear mixed models were used to calculate change rates for biomarkers and cognition. To test whether biomarker changes track cognitive decline, linear models were applied, to test biomarker change rates as a predictor of cognitive change rates. Standardized beta values from bootstrapped linear models were extracted to compare the strengths of correlations between biomarkers and cognitive decline. For non-parametric comparisons, 95% confidence intervals (CIs) of standardized beta values were compared. Models were controlled for age, sex, education, and baseline cognition, with ADNI models additionally adjusted for clinical status.In both cohorts, changes in temporal tau-PET, plasma p-tau217, and MRI-assessed cortical thickness were associated with cognitive decline (ADNI: Figure 1; A4: Figure 2). Amyloid-PET changes showed no significant association with cognitive changes (ADNI: Figure 1A+F+K; A4: Figure 2A+F). Bootstrapping confirmed that tau-PET, plasma p-tau217, and cortical thickness track cognitive decline, but not amyloid-PET (ADNI: Figure 1E+J+O; A4: Figure 2E+J). Overlapping CIs for tau-PET and plasma p-tau217 indicated comparable predictive accuracy.Our findings demonstrate that tau-PET and plasma p-tau217 are robust biomarkers for monitoring cognitive changes, with plasma p-tau217 offering a cost-effective, scalable alternative for clinical use. Changes in amyloid-PET do not reliably reflect cognitive decline, limiting its utility as a treatment monitoring tool. Although cortical thickness correlates with cognitive changes, its application is limited by pseudoatrophy and volume loss induced by anti-amyloid antibody treatments.
Keyword(s): Humans (MeSH) ; Alzheimer Disease: diagnostic imaging (MeSH) ; Alzheimer Disease: pathology (MeSH) ; Male (MeSH) ; Female (MeSH) ; tau Proteins: blood (MeSH) ; Biomarkers: blood (MeSH) ; Aged (MeSH) ; Magnetic Resonance Imaging (MeSH) ; Positron-Emission Tomography (MeSH) ; Longitudinal Studies (MeSH) ; Aged, 80 and over (MeSH) ; Brain: diagnostic imaging (MeSH) ; Brain: pathology (MeSH) ; Amyloid beta-Peptides (MeSH) ; tau Proteins ; Biomarkers ; Amyloid beta-Peptides
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