[R01] Connectomic Biomarkers of Preclinical Alzheimer's Disease within Multi-Synaptic Pathways
Ente: National Institute on Aging
Scadenza: 2027-04-30
Importo max: 584.403 EUR
Paese: US
Descrizione
The overall goal of the proposed research is to define the specific brain networks that are vulnerable or
resilient in aging and Alzheimer’s disease (AD), and subsequently derive new accurate, precise, and robust
connectomic imaging biomarkers for (especially preclinical) AD, which could improve diagnosis, disease staging,
prediction, assessment of progression, and therapeutic efficacy. Information flows in the human brain through a
complex set of structural and functional networks. The complete connectivity map among brain areas, i.e. the
connectome, can help to better understand the vulnerability and resilience of the brain architecture and function
to aging effects and debilitating neurodegenerative diseases, such as AD, and to discover diagnostically and
therapeutically important biomarkers. Focusing on brain regions, but not interregional connectivity, may have
hindered progress in understanding and treating disorders characterized as “disconnection syndromes”.
Diffusion-weighted MRI (dMRI) and resting-state functional MRI (rs-fMRI) are used to noninvasively quantify
structural and functional brain networks, respectively. Network-based analysis of the brain has proved promising
in revealing the basis of cognitive dysfunction in mild cognitive impairment (MCI) and AD, demonstrating changes
distinct from those with healthy aging. Development of treatments to prevent or delay the onset of AD would be
greatly facilitated by a noninvasive, sensitive, and specific diagnostic biomarker able to discriminate cognitively
normal people and MCI patients who will progress to AD from those who will age healthily.
Structural connectivity between two brain regions is often defined based on the dMRI tractography-derived
streamlines between them. The direct fiber bundle connecting two brain areas is expected to be the major signal
carrier between them; however, multi-synaptic neural pathways (those mediated through other regions) also
provide connectivity. The investigators propose to develop and validate novel mathematical and algorithmic
models for brain connectivity, while accounting for multi-synaptic neural pathways (Aim 1). Furthermore, they
propose to include a comprehensive set of brain regions (Aim 2), given that some brain structures that are
important in AD, such as locus coeruleus, basal forebrain, and hypothalamus, are not readily included in
neuroimaging toolboxes. They also propose to identify compensatory connections contributing to resilience in
aging and preclinical AD (Aim 3). The completion of this study will improve our understanding of how brain
networks are affected in aging and AD and will help to derive more accurate AD biomarkers. In this connectomic
analysis, ten existing heterogeneous dMRI/rs-fMRI databases of healthy elderly, MCI, and AD populations,
totaling approximately 6000 subjects, will be combined, which is expected to improve stratification, prediction,
and prognosis. The investigators will validate their network-derived b
Istituzione: MASSACHUSETTS GENERAL HOSPITAL
PI: Iman Aganj
Progetto: 5R01AG068261-03
Settori: National Institute on Aging
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