Assessing Amyloid Biomarkers in Alzheimer's Disease: Comparing the Sensitivity of PET, CSF, and Plasma to Alzheimer‐Related Brain and Cognitive Changes
Jason Scully, Callista Smith, Mahsa Dadar, Cassandra Morrison

TL;DR
This study compares how well PET, CSF, and plasma amyloid biomarkers detect brain and cognitive changes in Alzheimer's disease.
Contribution
The study reveals that plasma amyloid measures may not be as sensitive as PET and CSF for detecting Alzheimer's-related changes.
Findings
CSF and PET amyloid biomarkers showed the strongest correlation with each other and with brain and cognitive changes.
Plasma amyloid failed to distinguish between cognitive stages like CN, MCI, and dementia.
Structural brain changes and cognitive outcomes were more strongly linked to CSF and PET than to plasma.
Abstract
With the recent availability of the new amyloid‐beta directed treatments for Alzheimer's disease (AD), accurate assessment of amyloid burden has gained increasing importance. However, limited data exists examining the sensitivity of PET, CSF, and plasma amyloid biomarkers to AD‐related brain and cognitive changes. 248 participants who had MRI as well as amyloid measurements based on CSF, PET, and plasma were included from the ADNI database. Correlation analyses and linear regression models were performed to assess the intercorrelations of the three biomarker levels (i.e., CSF, PET, plasma) as well as their association with cognitive performance and brain measurements, with age, sex, and education added as covariates. CSF and PET had the strongest correlation (r = ‐0.565, p < .001), followed by PET and plasma (r = ‐0.390, p < .001), and CSF and plasma (r = 0.338, p < .001, Figure 1a.).…
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Taxonomy
TopicsDementia and Cognitive Impairment Research · Alzheimer's disease research and treatments · Cerebrospinal fluid and hydrocephalus
