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外侧膝状体核和视觉皮层对不同时间频率刺激的 BOLD 反应:对 fMRI 神经基础的深入了解。

BOLD responses to different temporal frequency stimuli in the lateral geniculate nucleus and visual cortex: insights into the neural basis of fMRI.

机构信息

Department of Radiology, University of Pittsburgh, Pittsburgh, PA 15203, USA.

出版信息

Neuroimage. 2011 Sep 1;58(1):82-90. doi: 10.1016/j.neuroimage.2011.06.022. Epub 2011 Jun 17.

DOI:10.1016/j.neuroimage.2011.06.022
PMID:21704712
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3159040/
Abstract

The neural basis of the blood oxygenation level dependent (BOLD) functional magnetic resonance imaging (fMRI) remains largely unknown after decades of research. To investigate this issue, the unique property of the temporal frequency tuning that could separate neural input and output in the primary visual cortex was used as a model. During moving grating stimuli of 1, 2, 10 and 20Hz temporal frequencies, we measured 9.4-T BOLD fMRI responses simultaneously in the primary visual cortex of area 17 (A17) and area 18 (A18), and the lateral geniculate nucleus (LGN) of isoflurane-anesthetized cat. Our results showed that preferred temporal frequencies of the BOLD responses for A17, A18 and LGN were 3.1Hz, 4.5Hz and 6.0Hz, respectively, which were comparable to the previously reported electrophysiological data. Additionally, the difference of BOLD response onset time between LGN and A17 was 0.5s, which is 18 times larger than the difference of neural activity onset time between these areas. We then compared the frequency-dependent BOLD fMRI response of A17 with tissue partial pressure of oxygen (pO(2)) and electrophysiological data of the same animal model reported by Viswanathan and Freeman (Nature Neuroscience, 2007). The BOLD tuning curve resembled the low frequency band (<12Hz) of local field potential (LFP) tuning curve rather than spiking activity, gamma band (25-90Hz) of LFP, and tissue pO(2) tuning curves, suggesting that the BOLD fMRI signal relates closer to low frequency LFP.

摘要

数十年来,血氧水平依赖(BOLD)功能磁共振成像(fMRI)的神经基础仍很大程度上未知。为了研究这个问题,我们利用初级视觉皮层中神经输入和输出可分离的时间频率调谐这一独特性质作为模型。在 1Hz、2Hz、10Hz 和 20Hz 时移光栅刺激期间,我们在异氟烷麻醉猫的 17 区(A17)和 18 区(A18)以及外侧膝状体(LGN)中同时测量了 9.4T 的 BOLD fMRI 响应。我们的结果表明,A17、A18 和 LGN 的 BOLD 响应的最佳时间频率分别为 3.1Hz、4.5Hz 和 6.0Hz,与之前报道的电生理数据相当。此外,LGN 和 A17 之间的 BOLD 响应起始时间差为 0.5s,是这两个区域之间神经活动起始时间差的 18 倍。然后,我们将 A17 的频率依赖性 BOLD fMRI 响应与 Viswanathan 和 Freeman(《自然神经科学》,2007 年)在同一动物模型中报告的组织氧分压(pO2)和电生理数据进行了比较。BOLD 调谐曲线类似于局部场电位(LFP)调谐曲线的低频带(<12Hz),而不是尖峰活动、LFP 的伽马频带(25-90Hz)和组织 pO2 调谐曲线,这表明 BOLD fMRI 信号与低频 LFP 更为相关。

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