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Microfluidic cell engineering on high-density microelectrode arrays for assessing structure-function relationships in living neuronal networks.


ABSTRACT: Neuronal networks in dissociated culture combined with cell engineering technology offer a pivotal platform to constructively explore the relationship between structure and function in living neuronal networks. Here, we fabricated defined neuronal networks possessing a modular architecture on high-density microelectrode arrays (HD-MEAs), a state-of-the-art electrophysiological tool for recording neural activity with high spatial and temporal resolutions. We first established a surface coating protocol using a cell-permissive hydrogel to stably attach a polydimethylsiloxane microfluidic film on the HD-MEA. We then recorded the spontaneous neural activity of the engineered neuronal network, which revealed an important portrait of the engineered neuronal network-modular architecture enhances functional complexity by reducing the excessive neural correlation between spatially segregated modules. The results of this study highlight the impact of HD-MEA recordings combined with cell engineering technologies as a novel tool in neuroscience to constructively assess the structure-function relationships in neuronal networks.

SUBMITTER: Sato Y 

PROVIDER: S-EPMC9868575 | biostudies-literature | 2022

REPOSITORIES: biostudies-literature

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Microfluidic cell engineering on high-density microelectrode arrays for assessing structure-function relationships in living neuronal networks.

Sato Yuya Y   Yamamoto Hideaki H   Kato Hideyuki H   Tanii Takashi T   Sato Shigeo S   Hirano-Iwata Ayumi A  

Frontiers in neuroscience 20230109


Neuronal networks in dissociated culture combined with cell engineering technology offer a pivotal platform to constructively explore the relationship between structure and function in living neuronal networks. Here, we fabricated defined neuronal networks possessing a modular architecture on high-density microelectrode arrays (HD-MEAs), a state-of-the-art electrophysiological tool for recording neural activity with high spatial and temporal resolutions. We first established a surface coating pr  ...[more]

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