Enhancement of electrical signaling in neural networks on graphene films

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• 作者：Mingliang Tang¹ ; Qin Song¹ ; Ning Li¹ ; Ziyun Jiang ; Rong Huang ; Guosheng Cheng ; ^{gscheng2006@sinano.ac.cn} ; ^{guosheng_cheng@hotmail.com}
• 关键词：Graphene ; Neural stem cells ; Neural activity ; Neural network
• 刊名：Biomaterials
• 出版年：2013
• 出版时间：September, 2013
• 年：2013
• 卷：34
• 期：27
• 页码：6402-6411
• 全文大小：2892 K

文摘

One of the key challenges for neural tissue engineering is to exploit supporting materials with robust functionalities not only to govern cell-specific behaviors, but also to form functional neural network. The unique electrical and mechanical properties of graphene imply it as a promising candidate for neural interfaces, but little is known about the details of neural network formation on graphene as a scaffold material for tissue engineering. Therapeutic regenerative strategies aim to guide and enhance the intrinsic capacity of the neurons to reorganize by promoting plasticity mechanisms in a controllable manner. Here, we investigated the impact of graphene on the formation and performance in the assembly of neural networks in neural stem cell (NSC) culture. Using calcium imaging and electrophysiological recordings, we demonstrate the capabilities of graphene to support the growth of functional neural circuits, and improve neural performance and electrical signaling in the network. These results offer a better understanding of interactions between graphene and NSCs, also they clearly present the great potentials of graphene as neural interface in tissue engineering.