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

IF 2.1 3区医学 Q3 NEUROSCIENCES Journal of neurophysiology Pub Date : 2025-02-01 Epub Date: 2025-01-17 DOI:10.1152/jn.00418.2024

Lisa Meyer-Baese, Dieter Jaeger, Shella Keilholz

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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.

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神经血管耦合：回顾自发的新皮层动力学，将神经元活动与血流动力学联系起来，以及我们从啮齿动物大脑中学到的东西。

大脑是一个复杂的神经网络，其功能动力学为行为表现和健康提供了有价值的见解。功能磁共振成像技术的进步为研究人类大脑网络提供了一个独特的窗口，为临床研究提供了一个强大的工具。然而，关于自发功能磁共振成像和神经活动之间的潜在关联的许多问题仍然知之甚少，这限制了本研究的影响。跨物种研究对于加深我们对神经元活动如何与局部脑血流量增加、血氧变化和测量的功能磁共振成像信号相关联的理解至关重要。在本文中，我们回顾了一些涉及神经血管耦合的基本机制。然后，我们研究了自发皮层功能网络及其动力学背景下的神经血管耦合，总结了啮齿动物机制研究的主要发现。在这样做的过程中，我们强调了神经血管耦合的细微差别，这最终影响了衍生的血流动力学功能网络的解释，它们的动力学，以及它们所代表的神经基础。

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来源期刊

Journal of neurophysiology 医学-神经科学

CiteScore

4.80

自引率

8.00%

发文量

255

审稿时长

2-3 weeks

期刊介绍： The Journal of Neurophysiology publishes original articles on the function of the nervous system. All levels of function are included, from the membrane and cell to systems and behavior. Experimental approaches include molecular neurobiology, cell culture and slice preparations, membrane physiology, developmental neurobiology, functional neuroanatomy, neurochemistry, neuropharmacology, systems electrophysiology, imaging and mapping techniques, and behavioral analysis. Experimental preparations may be invertebrate or vertebrate species, including humans. Theoretical studies are acceptable if they are tied closely to the interpretation of experimental data and elucidate principles of broad interest.