Join Jonathan Polimeni, PhD for a deep dive into the physics and physiology of fMRI and an understanding of its use for the study of neurological disorders.
Functional MRI (fMRI) is the most widely-used method for measuring neuronal activity noninvasively across the entire human brain. All fMRI techniques in use today measure brain function indirectly—by tracking the changes in blood flow, volume, and oxygenation that accompany neuronal activity, and this has often been viewed as the fundamental limitation of the technique. However, recent evidence from microscopy studies has shown that the smallest blood vessels of the brain respond far more precisely, in space and in time, to neuronal activity than previously believed. This insight suggests that the "biological resolution" of fMRI is intrinsically high, and, with sufficiently high imaging resolution, it should fundamentally be possible to extract meaningful neuronally-specific information from fMRI—provided that we understand how vascular anatomy and physiology shape the hemodynamics that generate the fMRI signals.
This lecture describes ongoing efforts to improve the neuronal specificity of fMRI and pose the question: How far can we go with fMRI? A key challenge is that the vascular architecture of the brain reflects its structure and function across spatial scales. Modern fMRI is also used to measure cerebrovascular physiology, which is impaired in many neurological disorders, and so a deeper understanding of the fMRI signals will improve our understanding of the brain in health and disease.
Presenters
Jonathan Polimeni
Jonathan Polimeni is a neuroscientist and an engineer at Massachusetts General Hospital and Harvard Medical School. His research focuses on studying the human brain using functional Magnetic Resonance Imaging (fMRI). His laboratory develops technologies for increasing the resolution of fMRI and for relating brain hemodynamics to neuronal activity.
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