Role of major burst leaders in modular hippocampal networks

M. Bisio, Valentina Pasquale, A. Bosca, L. Berdondini, M. Chiappalone
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Abstract

The development of in vitro neuronal models constituted by patterned networks is of significant interest in the neuroscientific community and requires the convergence of electrophysiological studies with micro/nano-fabrication techniques. In this paper we make use of a methodology to induce self-organization of networks into two connected sub-populations grown onto commercially available Micro Electrode Arrays (MEAs) in order to understand the role of `burst leaders' in generating the collective synchronous events (i.e. network bursts) spontaneously arising in dissociated cultures. Considering the multitude of connections shown by uniform neuronal cultures, the restraint of neurite outgrowth along specific pathways ensures a considerable control over network complexity. Here we exploit this topological configuration to investigate whether and how network burst generation is affected by the development of the network. Our results constitute important evidence that engineered neuronal networks are a powerful platform to systematically approach questions related to the dynamics of neuronal assemblies.
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模块化海马体网络中主要突发先导的作用
由模式网络构成的体外神经元模型的发展是神经科学界的重要兴趣,需要电生理研究与微/纳米制造技术的融合。在本文中,我们利用一种方法将网络的自组织诱导成两个连接的亚群,这些亚群生长在市售的微电极阵列(MEAs)上,以了解“突发领导者”在产生集体同步事件(即网络突发)中自发产生的作用。考虑到统一的神经元培养所显示的大量连接,沿特定路径的神经突生长的限制确保了对网络复杂性的相当大的控制。在这里,我们利用这种拓扑结构来研究网络突发的产生是否以及如何受到网络发展的影响。我们的结果构成了重要的证据,证明工程神经元网络是一个强大的平台,可以系统地解决与神经元组装动力学相关的问题。
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