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人脑视觉皮层中短暂神经活动引起的脑血流动力学反应。

Dynamics of the cerebral blood flow response to brief neural activity in human visual cortex.

机构信息

Department of Neuroscience, Baylor College of Medicine, Houston, TX, USA.

Laboratory of FMRI Technology (LOFT), Stevens Neuroimaging and Informatics Institute, University of Southern California, Los Angeles, CA, USA.

出版信息

J Cereb Blood Flow Metab. 2020 Sep;40(9):1823-1837. doi: 10.1177/0271678X19869034. Epub 2019 Aug 20.

DOI:10.1177/0271678X19869034
PMID:31429358
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7446561/
Abstract

The blood oxygen-level dependent (BOLD) functional magnetic resonance imaging (fMRI) signal depends on an interplay of cerebral blood flow (CBF), oxygen metabolism, and cerebral blood volume. Despite wide usage of BOLD fMRI, it is not clear how these physiological components create the BOLD signal. Here, baseline CBF and its dynamics evoked by a brief stimulus (2 s) in human visual cortex were measured at 3T. We found a stereotypical CBF response: immediate increase, rising to a peak a few second after the stimulus, followed by a significant undershoot. The BOLD hemodynamic response function (HRF) was also measured in the same session. Strong correlations between HRF and CBF peak responses indicate that the flow responses evoked by neural activation in nearby gray matter drive the early HRF. Remarkably, peak CBF and HRF were also strongly modulated by baseline perfusion. The CBF undershoot was reliable and significantly correlated with the HRF undershoot. However, late-time dynamics of the HRF and CBF suggest that oxygen metabolism can also contribute to the HRF undershoot. Combined measurement of the CBF and HRF for brief neural activation is a useful tool to understand the temporal dynamics of neurovascular and neurometabolic coupling.

摘要

血氧水平依赖 (BOLD) 功能磁共振成像 (fMRI) 信号取决于脑血流 (CBF)、氧代谢和脑血容量的相互作用。尽管 BOLD fMRI 被广泛应用,但它并不清楚这些生理成分如何产生 BOLD 信号。在这里,在 3T 下测量了人类视觉皮层中短暂刺激 (2s) 引起的基线 CBF 及其动力学。我们发现了一种典型的 CBF 反应:刺激后立即增加,几秒钟后达到峰值,然后出现明显的下冲。在同一会议上还测量了 BOLD 血液动力学反应功能 (HRF)。HRF 和 CBF 峰值反应之间的强相关性表明,邻近灰质中神经激活引起的血流反应驱动早期 HRF。值得注意的是,峰值 CBF 和 HRF 也受到基线灌注的强烈调制。CBF 下冲是可靠的,与 HRF 下冲显著相关。然而,HRF 和 CBF 的后期动力学表明,氧代谢也可以促成 HRF 下冲。对短暂神经激活的 CBF 和 HRF 的联合测量是理解神经血管和神经代谢偶联的时间动力学的有用工具。

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