在大鼠新皮层中同时进行 BOLD fMRI 和光纤钙记录。

Simultaneous BOLD fMRI and fiber-optic calcium recording in rat neocortex.

机构信息

Department of Neurophysiology, Brain Research Institute, University of Zurich, Switzerland.

出版信息

Nat Methods. 2012 Jun;9(6):597-602. doi: 10.1038/nmeth.2013. Epub 2012 May 6.

DOI:10.1038/nmeth.2013

PMID:22561989

Abstract

Functional magnetic resonance imaging (fMRI) based on blood oxygen level-dependent (BOLD) contrast is widely used for probing brain activity, but its relationship to underlying neural activity remains elusive. Here, we combined fMRI with fiber-optic recordings of fluorescent calcium indicator signals to investigate this relationship in rat somatosensory cortex. Electrical forepaw stimulation (1-10 Hz) evoked fast calcium signals of neuronal origin that showed frequency-dependent adaptation. Additionally, slower calcium signals occurred in astrocyte networks, as verified by astrocyte-specific staining and two-photon microscopy. Without apparent glia activation, we could predict BOLD responses well from simultaneously recorded fiber-optic signals, assuming an impulse response function and taking into account neuronal adaptation. In cases with glia activation, we uncovered additional prolonged BOLD signal components. Our findings highlight the complexity of fMRI BOLD signals, involving both neuronal and glial activity. Combined fMRI and fiber-optic recordings should help to clarify cellular mechanisms underlying BOLD signals.

摘要

基于血氧水平依赖（BOLD）对比的功能磁共振成像（fMRI）广泛用于探测大脑活动，但它与潜在神经活动的关系仍难以捉摸。在这里，我们结合 fMRI 和光纤记录的荧光钙指示剂信号，研究了大鼠体感皮层中的这种关系。电前爪刺激（1-10 Hz）诱发了源自神经元的快速钙信号，该信号表现出频率依赖性适应。此外，较慢的钙信号发生在星形胶质细胞网络中，这通过星形胶质细胞特异性染色和双光子显微镜得到了验证。在没有明显的神经胶质激活的情况下，我们可以根据同时记录的光纤信号很好地预测 BOLD 反应，假设一个脉冲响应函数，并考虑神经元适应。在有神经胶质激活的情况下，我们发现了额外的延长 BOLD 信号成分。我们的研究结果强调了 fMRI BOLD 信号的复杂性，涉及神经元和神经胶质活动。结合 fMRI 和光纤记录应该有助于阐明 BOLD 信号的细胞机制。

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在大鼠新皮层中同时进行 BOLD fMRI 和光纤钙记录。

Simultaneous BOLD fMRI and fiber-optic calcium recording in rat neocortex.

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