Alexander D. Jacob, Adam I. Ramsaran, Andrew J. Mocle, Lina M. Tran, Chen Yan, Paul W. Frankland, Sheena A. Josselyn
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引用次数: 46
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Abstract
Miniaturized fluorescence microscopes for imaging calcium transients are a promising tool for investigating the relationship between behavior and population-level neuronal activity in rodents. However, commercially available miniature microscopes may be costly and, because they are closed source, may not be easily modified based on particular experimental requirements. Here, we describe how to build and use a low-cost compact head-mounted endoscope (CHEndoscope) system for in vivo calcium imaging. The CHEndoscope uses an implanted gradient index lens along with the genetically encoded calcium indicator GCaMP6 to image calcium transients from hundreds of neurons simultaneously in awake behaving mice. This system is affordable, open source, and flexible, permitting modification depending on the particular experiment. This article describes in detail the assembly, surgical implantation, data collection, and processing of calcium signals using the CHEndoscope system. The aim of this open framework is to provide an accessible set of miniaturized calcium imaging tools for the neuroscience research community. © 2018 by John Wiley & Sons, Inc.
用于自由行为小鼠体内钙成像的紧凑型头戴式内窥镜
用于成像钙瞬态的小型荧光显微镜是研究啮齿动物行为与种群水平神经元活动之间关系的有前途的工具。然而,市售的微型显微镜可能很昂贵,而且由于它们是闭源的,可能不容易根据特定的实验要求进行修改。在这里,我们描述了如何构建和使用低成本紧凑型头戴式内窥镜(CHEndoscope)系统进行体内钙成像。chen内窥镜使用植入的梯度指数透镜和基因编码的钙指示剂GCaMP6来同时成像来自清醒行为小鼠的数百个神经元的钙瞬态。该系统价格合理、开源且灵活,允许根据特定实验进行修改。本文详细介绍了CHEndoscope系统的组装、手术植入、数据收集和钙信号处理。这个开放框架的目的是为神经科学研究界提供一套可访问的小型化钙成像工具。©2018 by John Wiley &儿子,Inc。
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