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微电极阵列刺激结合内在光学成像:一种用于功能性脑图谱绘制的新型工具。

Microelectrode array stimulation combined with intrinsic optical imaging: A novel tool for functional brain mapping.

作者信息

Chernov Mykyta M, Chen Gang, Torre-Healy Luke A, Friedman Robert M, Roe Anna W

机构信息

Department of Psychology, Vanderbilt University, 111 21st Ave S, Nashville, TN 37240, United States.

Department of Psychology, Vanderbilt University, 111 21st Ave S, Nashville, TN 37240, United States.

出版信息

J Neurosci Methods. 2016 Apr 1;263:7-14. doi: 10.1016/j.jneumeth.2016.01.018. Epub 2016 Jan 25.

Abstract

BACKGROUND

Functional brain mapping via cortical microstimulation is a widely used clinical and experimental tool. However, data are traditionally collected point by point, making the technique very time consuming. Moreover, even in skilled hands, consistent penetration depths are difficult to achieve. Finally, the effects of microstimulation are assessed behaviorally, with no attempt to capture the activity of the local cortical circuits being stimulated.

NEW METHOD

We propose a novel method for functional brain mapping, which combines the use of a microelectrode array with intrinsic optical imaging. The precise spacing of electrodes allows for fast, accurate mapping of the area of interest in a regular grid. At the same time, the optical window allows for visualization of local neural connections when stimulation is combined with intrinsic optical imaging.

RESULTS

We demonstrate the efficacy of our technique using the primate motor cortex as a sample application, using a combination of microstimulation, imaging and electrophysiological recordings during wakefulness and under anesthesia. Comparison with current method: We find the data collected with our method is consistent with previous data published by others. We believe that our approach enables data to be collected faster and in a more consistent fashion and makes possible a number of studies that would be difficult to carry out with the traditional approach.

CONCLUSIONS

Our technique allows for simultaneous modulation and imaging of cortical sensorimotor networks in wakeful subjects over multiple sessions which is highly desirable for both the study of cortical organization and the design of brain machine interfaces.

摘要

背景

通过皮层微刺激进行脑功能图谱绘制是一种广泛应用的临床和实验工具。然而,传统上数据是逐点收集的,这使得该技术非常耗时。此外,即使是技术熟练的人员,也很难实现一致的穿透深度。最后,微刺激的效果是通过行为学方式评估的,并未尝试捕捉被刺激的局部皮层回路的活动。

新方法

我们提出了一种用于脑功能图谱绘制的新方法,该方法将微电极阵列的使用与内在光学成像相结合。电极的精确间距使得能够以规则网格快速、准确地绘制感兴趣区域。同时,当刺激与内在光学成像相结合时,光学窗口允许可视化局部神经连接。

结果

我们以灵长类运动皮层作为样本应用,通过在清醒和麻醉状态下结合微刺激、成像和电生理记录,证明了我们技术的有效性。与当前方法的比较:我们发现用我们的方法收集的数据与其他人之前发表的数据一致。我们相信,我们的方法能够更快且更一致地收集数据,并使许多用传统方法难以开展的研究成为可能。

结论

我们的技术允许在多个时段对清醒受试者的皮层感觉运动网络进行同时调制和成像,这对于皮层组织研究和脑机接口设计都非常有必要。

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