AFM has unique capabilities in neurobiology for detailed biomechanical analysis of brain tissues and cells, and also has clinical potential in diagnosing neurodegenerative diseases and improving current CNS tumor grading system. Credit: authors Neurological disorders are becoming an increasingly significant societal burden, highlighting the critical need for improved diagnostic and therapeutic approaches. Atomic force microscopy (AFM), known for its nanometer-scale resolution and piconewton-scale force sensitivity, offers insights into the biomechanical properties of brain cells and tissues and their interactions within their microenvironment. A team led by Chwee Teck Lim from National University of Singapore, provides a review of the significant Read More
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