• Transl Res · Apr 2023

    Review

    Connectome-based biophysics models of Alzheimer's disease diagnosis and prognosis.

    • Justin Torok, Chaitali Anand, Parul Verma, and Ashish Raj.
    • Department of Radiology, University of California, San Francisco, San Francisco, California. Electronic address: justin.torok@ucsf.edu.
    • Transl Res. 2023 Apr 1; 254: 132313-23.

    AbstractWith the increasing prevalence of Alzheimer's disease (AD) among aging populations and the limited therapeutic options available to slow or reverse its progression, the need has never been greater for improved diagnostic tools for identifying patients in the preclinical and prodomal phases of AD. Biophysics models of the connectome-based spread of amyloid-beta (Aβ) and microtubule-associated protein tau (τ) have enjoyed recent success as tools for predicting the time course of AD-related pathological changes. However, given the complex etiology of AD, which involves not only connectome-based spread of protein pathology but also the interactions of many molecular and cellular players over multiple spatiotemporal scales, more robust, complete biophysics models are needed to better understand AD pathophysiology and ultimately provide accurate patient-specific diagnoses and prognoses. Here we discuss several areas of active research in AD whose insights can be used to enhance the mathematical modeling of AD pathology as well as recent attempts at developing improved connectome-based biophysics models. These efforts toward a comprehensive yet parsimonious mathematical description of AD hold great promise for improving both the diagnosis of patients at risk for AD and our mechanistic understanding of how AD progresses.Copyright © 2022 The Author(s). Published by Elsevier Inc. All rights reserved.

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