Characterization of Multiscale Regulation of the Brain in Aging and Age-related Conditions: A Comprehensive Review
Haoru Li, Brad Manor, Lewis Lipsitz, Junhong Zhou

TL;DR
This review explores how brain regulation changes across multiple scales in aging and age-related diseases, highlighting the importance of brain complexity in understanding neurodegenerative conditions.
Contribution
The paper provides a comprehensive review of multiscale brain regulation studies in aging and age-related diseases, emphasizing novel insights from advanced signal-processing techniques.
Findings
Older adults and those with age-related conditions show altered brain complexity compared to younger controls or normally aging individuals.
Lower brain complexity is linked to more advanced disease stages and worse functional performance in age-related conditions.
Multiscale entropy and transfer entropy are key tools for measuring brain complexity in these studies.
Abstract
As the core for many important functions, the brain activities are regulated by numerous underlying neuro-biophysiological elements communicating and interacting over multiple temporospatial scales. Studies have emerged to characterize such complex multiscale regulation of the brain (i.e., brain complexity), especially under the influences of aging and age-related conditions/diseases, via advanced signal-processing techniques, and obtained exciting insights into the pathology of brain-related neurodegenerative diseases that cannot be characterized using traditional single-scale measures. We thus performed a literature review to comprehensively summarize these achievements/progress in this area. Seven electronic databases were searched. The key information (e.g., participant cohort) of 43 eligible studies was extracted. These studies were all cross-sectionally designed with relatively…
Genes, proteins, chemicals, diseases, species, mutations and cell lines named across the full text — each resolved to its canonical identifier and authoritative record.
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Taxonomy
TopicsFunctional Brain Connectivity Studies · EEG and Brain-Computer Interfaces · Neural dynamics and brain function
