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Abstract

Background

Alzheimer's disease (AD) is the most common neurodegenerative dementia, with diagnosis traditionally reliant on clinical criteria. Cerebrospinal fluid (CSF) biomarkers like pTau181 and Aβ₄₂/Aβ₄₀ ratio significantly improve diagnostic accuracy but are invasive. Plasma biomarkers measured by automated assays offer a non-invasive alternative.

Objective

To evaluate the diagnostic performance of plasma pTau181, Aβ₄₂/Aβ₄₀, and pTau181/Aβ₄₂ ratios in predicting CSF amyloid status in a real-life clinical setting.

Methods

Data from consecutive patients whose plasma and CSF samples sent to our laboratory between March and October 2022, were retrospectively analyzed. Plasma and CSF pTau181, Aβ₄₂, and Aβ₄₀ levels were measured using the Lumipulse G600II platform. CSF amyloid status was classified as amyloid-positive (A+) or amyloid-negative (A-) based on the Aβ₄₂/Aβ₄₀ ratio. Statistical analyses included Spearman correlation, receiver operating characteristic (ROC) curves, and multivariate logistic regression to evaluate biomarker performance.

Results

Among 165 individuals (83 females), 29.1% were classified as A+. Significant correlations were found between plasma and CSF biomarkers, with the highest for the pTau181/Aβ₄₂ ratio (ρ=0.620, p < 0.0001). ROC analysis showed the pTau181/Aβ₄₂ ratio had the highest diagnostic performance (AUC 0.818), followed by pTau181 (AUC 0.794) and Aβ₄₂/Aβ₄₀ (AUC 0.775). Combining plasma biomarkers in age-adjusted models improved diagnostic accuracy (AUC up to 0.846).

Conclusions

Plasma biomarkers measured by the Lumipulse G600II platform show strong potential in predicting CSF amyloid status and possibly reduces the need for lumbar punctures. These findings support the potential use of plasma assays in the early diagnosis of AD. Anyway, further validations in larger multicenter cohorts are mandatory.

Keywords

Alzheimer's disease biomarkers cerebrospinal fluid plasma

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Real-life reliability of plasma pTau181,Aβ 42 /Aβ 40,and pTau181/Aβ 42 measured by Lumipulse G600II in predicting cerebrospinal fluid amyloid status

Abstract

Background

Objective

Methods

Results

Conclusions

Keywords

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References

Supplementary Material