AI Article Synopsis
- MRI is used to identify structural changes in the brain related to neurodegenerative diseases, serving as a biomarker.
- Instead of focusing on categorical diagnoses, the study utilizes multiple biomarkers to capture the variability in brain morphology related to conditions like aging and Alzheimer's disease (AD).
- The approach employs Projection to Latent Structures in regression (PLSR) to create a low-dimensional model that distinguishes between effects of aging and pathological changes in brain structure, while validating its predictive accuracy through cross-validation.
Article Abstract
Magnetic resonance imaging (MRI) provides high resolution brain morphological information and is used as a biomarker in neurodegenerative diseases. Population studies of brain morphology often seek to identify pathological structural changes related to different diagnostic categories (e.g.: controls, mild cognitive impairment or dementia) which normally describe highly heterogeneous groups with a single categorical variable. Instead, multiple biomarkers are used as a proxy for pathology and are more powerful in capturing structural variability. Hence, using the joint modeling of brain morphology and biomarkers, we aim at describing structural changes related to any brain condition by means of few underlying processes. In this regard, we use a multivariate approach based on Projection to Latent Structures in its regression variant (PLSR) to study structural changes related to aging and AD pathology. MRI volumetric and cortical thickness measurements are used for brain morphology and cerebrospinal fluid (CSF) biomarkers (t-tau, p-tau and amyloid-beta) are used as a proxy for AD pathology. By relating both sets of measurements, PLSR finds a low-dimensional latent space describing AD pathological effects on brain structure. The proposed framework allows us to separately model aging effects on brain morphology as a confounder variable orthogonal to the pathological effect. The predictive power of the associated latent spaces (i.e., the capacity of predicting biomarker values) is assessed in a cross-validation framework.
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| http://dx.doi.org/10.1109/JBHI.2019.2932565 | DOI Listing |
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