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Neurovascular coupling: a review of spontaneous neocortical dynamics linking neuronal activity to hemodynamics and what we have learned from the rodent brain

Lisa Meyer-Baese, Dieter Jaeger, Shella Keilholz

2025Journal of Neurophysiology12 citationsDOIOpen Access PDF

Abstract

The brain is a complex neural network whose functional dynamics offer valuable insights into behavioral performance and health. Advances in fMRI have provided a unique window into studying human brain networks, providing us with a powerful tool for clinical research. Yet many questions about the underlying correlates between spontaneous fMRI and neural activity remain poorly understood, limiting the impact of this research. Cross-species studies have proven essential in deepening our understanding of how neuronal activity is coupled to increases in local cerebral blood flow, changes in blood oxygenation, and the measured fMRI signal. In this article, we review some fundamental mechanisms implicated in neurovascular coupling. We then examine neurovascular coupling within the context of spontaneous cortical functional networks and their dynamics, summarizing key findings from mechanistic studies in rodents. In doing so, we highlight the nuances of the neurovascular coupling that ultimately influences the interpretation of derived hemodynamic functional networks, their dynamics, and the neural underpinnings they represent.

Topics & Concepts

NeuroscienceDynamics (music)PsychologyPremovement neuronal activityCoupling (piping)Neurovascular bundleBiologyAnatomyMechanical engineeringEngineeringPedagogyFunctional Brain Connectivity StudiesTraumatic Brain Injury and Neurovascular Disturbances
Neurovascular coupling: a review of spontaneous neocortical dynamics linking neuronal activity to hemodynamics and what we have learned from the rodent brain | Litcius