类有机物
微电极
多电极阵列
多边形网格
电生理学
纳米技术
生物医学工程
计算机科学
化学
材料科学
神经科学
生物
电极
医学
计算机图形学(图像)
物理化学
作者
Matthew G. McDonald,David Sebinger,Lisa Brauns,Laura González-Cano,Yotam Menuchin-Lasowski,Michael Mierzejewski,Olympia-Ekaterini Psathaki,Angelika Stumpf,Jenny Wickham,Thomas Rauen,Hans R. Schöler,Peter D. Jones
标识
DOI:10.1016/j.bios.2023.115223
摘要
Organoids are emerging in vitro models of human physiology. Neural models require the evaluation of functional activity of single cells and networks, which is commonly measured by microelectrode arrays. The characteristics of organoids clash with existing in vitro or in vivo microelectrode arrays. With inspiration from implantable mesh electronics and growth of organoids on polymer scaffolds, we fabricated suspended hammock-like mesh microelectrode arrays for neural organoids. We have demonstrated the growth of organoids enveloping these meshes and the culture of organoids on meshes for up to one year. Furthermore, we present proof-of-principle recordings of spontaneous electrical activity across the volume of an organoid. Our concept enables a new class of microelectrode arrays for in vitro models of three-dimensional electrically active tissue.
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