首页> 外文会议>Neural Engineering, 2009. NER '09 >Imaging extracellular neuronal signaling on high resolution microelectrode arrays (MEAs) Hippocampal cultures coupled with a high resolution neuroelectronic interface

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Imaging extracellular neuronal signaling on high resolution microelectrode arrays (MEAs) Hippocampal cultures coupled with a high resolution neuroelectronic interface

机译：在高分辨率微电极阵列（MEA）海马培养物上成像细胞外神经元信号，并结合高分辨率神经电子接口

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This paper describes the experimental performances of a high-resolution CMOS integrated microelectrode array platform for acquiring extracellular neuronal signaling in-vitro. Electrophysiological signals of dissociated hippocampal cultures (14-30 DIVs, E18 from rats) are sampled at 7.7 kHz/channel from 4096 microelectrodes (21 mum inter-electrode separation). We show that the achieved spatial-temporal resolution together with data visualization as image sequences, enable the detailed observation of activation sites and burst activity propagations. This image-based approach is well adapted to high-resolution datasets in respect to raster plot visualization and opens the perspective of detailed image-based analysis of extracellular neuronal signals.

机译：本文介绍了高分辨率CMOS集成微电极阵列平台在体外获取细胞外神经元信号的实验性能。分离的海马培养物（14-30 DIV，来自大鼠的E18）的电生理信号以7.7 kHz /通道的频率从4096个微电极中采样（21毫米电极间分离）。我们表明，实现的时空分辨率以及数据可视化作为图像序列，使激活位点和爆发活动传播的详细观察成为可能。这种基于图像的方法非常适合于栅格图可视化的高分辨率数据集，并为细胞外神经元信号的基于图像的详细分析开辟了前景。

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《Neural Engineering, 2009. NER '09》|2009年|234-237|共4页
会议地点 Antalya(TR);Antalya(TR)
作者
Maccione A.; Benfenati F.; Berdondini L.; Gandolfo M.; Tedesco M.; Martinoia S.; Imfeld K.; Koudelka-Hep M.;
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Neurosci. Brain Technol., Italian Inst. of Technol., Genova, Italy;

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CMOS integrated circuits; bioelectric phenomena; biomedical electrodes; biomedical electronics; cellular biophysics; data visualisation; image resolution; image sequences; medical image processing; microelectrodes; neurophysiology; spatiotemporal phenomena; CMOS integrated microelectrode array; burst activity propagation; data visualization; electrophysiological signal; high-resolution neuroelectronic interface; hippocampal culture; imaging extracellular neuronal signaling; spatial-temporal resolution; CMOS-MEA; ext;

机译：CMOS集成电路;生物电现象;生物医学电极;生物医学电子学;细胞生物物理学;数据可视化;图像分辨率;图像序列;医学图像处理;微电极;神经生理学;时空现象; CMOS集成微电极阵列;爆发活动传播;数据可视化;电生理信号高分辨率神经电子接口海马培养胞外神经元成像时空分辨率CMOS-MEA ext;

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专利

1. Functional brain mapping using optical imaging of intrinsic signals and simultaneous high-resolution cortical electrophysiology with a flexible, transparent microelectrode array [J] . A. Zátonyi, Zs. Borhegyi, M. Srivastava, Sensors and Actuators . 2018,第NOVa期

机译：使用内在信号的光学成像和灵活的透明微电极阵列同时进行高分辨率皮层电生理的功能性大脑定位
2. Microelectrode array biosensor for high-resolution measurements of extracellular glucose in the brain [J] . Catia F. Lourenco, Ana Ledo, Joao Laranjinha, Sensors and Actuators . 2016,第deca期

机译：微电极阵列生物传感器，用于脑中胞外葡萄糖的高分辨率测量
3. High-resolution extracellular stimulation of dispersed hippocampal culture with high-density CMOS multielectrode array based on non-Faradaic electrodes [J] . N Lei, S Ramakrishnan, P Shi, Journal of neural engineering . 2011,第4期

机译：基于非法拉第电极的高密度CMOS多电极阵列对分散型海马培养物的高分辨率细胞外刺激
4. Imaging extracellular neuronal signaling on high resolution microelectrode arrays (MEAs): Hippocampal cultures coupled with a high resolution neuroelectronic interface [C] . A. Maccione, F. Benfenati, L. Berdondini, International IEEE/EMBS Conference on Neural Engineering . 2009

机译：高分辨率微电极阵列上的成像细胞外神经元信号（MES）：耦合高分辨率神经电子界面的海马培养物
5. Design, characterization and testing of a thin-film microelectrode array and signal conditioning microchip for high spatial resolution surface laplacian measurement. [D] . Dong, Huihang. 2011

机译：设计，表征和测试用于高空间分辨率表面拉普拉斯测量的薄膜微电极阵列和信号调节微芯片。
6. QSpike tools: a generic framework for parallel batch preprocessing of extracellular neuronal signals recorded by substrate microelectrode arrays [O] . Mufti Mahmud, Rocco Pulizzi, Eleni Vasilaki, 2014

机译：QSpike工具：用于基质微电极阵列记录的细胞外神经元信号的并行批量预处理的通用框架
7. How to achieve sub-cellular-level spatial resolution and sub-spike-level temporal resolution at same time is still a technical challenge in neural mapping while both information are critically important to advance neural science. Here, we present penetrating arrays consisted of single-neuron level transparent microelectrodes with low impedance coating which could realize the high spatial and temporal resolution at the same time. These 32-channel transparent penetrating electrodes with record-small site area, 225 µm², have a low impedance of ~ 149 kΩ at 1 kHz, an adequate charge injection limit of ± 0.76 mC/cm2, and up to 100 yield. Mechanical bending test result show robust mechanism up to 1000 bending cycles. After a temporary stiffen with polyethylene glycol, this electrode achieved great insertion result without any buckling or deformation. Together these results establish a novel neurotechnology - penetrating arrays of transparent, flexible bilayernanomeshMicroelectrodes which possess great potential for brain research [O] . Zhan Shi -1

机译：如何在同一时间实现子蜂窝级空间分辨率和子峰值级时间分辨率在神经映射中仍然是技术挑战，而两个信息对于推进神经科学来说都很重要。这里，我们提出穿透阵列由单神经元级透明微电极组成，具有低阻抗涂层，其可以同时实现高空间和时间分辨率。这些32通道透明穿透电极具有记录小的部位面积，225μm²的低阻抗在1 kHz的〜149kΩ的低阻抗，充足的电荷注入极限为±0.76mc / cm2，率高达100％。机械弯曲试验结果显示高达1000个弯曲循环的强大机制。在用聚乙二醇进行临时变硬后，该电极实现了很大的插入结果，而无需任何屈曲或变形。这些结果共同建立了一种新型神经技术 - 穿透透明，灵活的双层圆形脉冲阵列，其具有巨大的大脑研究潜力

Imaging extracellular neuronal signaling on high resolution microelectrode arrays (MEAs) Hippocampal cultures coupled with a high resolution neuroelectronic interface

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