同时进行多电极阵列记录和双光子钙成像以记录神经活动。
Simultaneous multi-electrode array recording and two-photon calcium imaging of neural activity.
机构信息
Section on Critical Brain Dynamics National Institute of Mental Health, Bethesda, MD 20892, USA.
出版信息
J Neurosci Methods. 2010 Sep 30;192(1):75-82. doi: 10.1016/j.jneumeth.2010.07.023. Epub 2010 Jul 24.
Abstract
A complete understanding of how brain circuits function will require measurement techniques which monitor large-scale network activity simultaneously with the activity of local neural populations at a small scale. Here we present a useful step towards achieving this aim: simultaneous two-photon calcium imaging and multi-electrode array (MEA) recordings. The primary challenge of this method is removing an electrical artifact from the MEA signals that is caused by the imaging laser. Here we show that artifact removal can be achieved with a simple filtering scheme. As a demonstration of this technique we compare large-scale local field potential signals to single-neuron activity in a small-scale group of cells recorded from rat acute slices under two conditions: suppressed vs. intact inhibitory interactions between neurons.
摘要
要全面了解大脑回路的功能,需要采用既能同时监测大规模网络活动,又能监测小规模局部神经元群体活动的测量技术。本文介绍了实现这一目标的一个有用步骤:双光子钙成像和多电极阵列(MEA)记录的同步进行。该方法的主要挑战是消除由成像激光引起的 MEA 信号中的电伪影。本文表明,可以通过简单的滤波方案来实现这种伪影去除。作为该技术的演示,我们比较了大鼠急性脑片中两种情况下的大规模局部场电位信号和小群体细胞中单神经元活动:抑制性神经元之间的抑制相互作用被抑制与完整。
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