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In Nano letters ; h5-index 188.0

Investigation of neural growth and connection is crucial in the field of neural tissue engineering. Here, using a femtosecond laser direct writing (fs-DLW) technique, we propose a directionally aligned porous microtube array as a culture system for accelerating the growth of neurons and directing the connection of neurites. These microtubes exhibited an unprecedented guidance effect toward the outgrowth of primary embryonic rat hippocampal neurons, with a wrap resembling the myelin sheaths of neurons. The speed of neurite growth inside these microtubes was significantly faster than that outside these microtubes. We also achieved selective/directing connection of neural networks inside the magnetic microtubes via precise microtube delivery to a gap between two neural clusters. This work not only proposes a powerful microtube platform for accelerated growth of neurons but also offers a new idea for constructing biological neural circuits by arranging the size, location, and pattern of microtubes.

Fan Shengying, Qi Lei, Li Jiawen, Liu Shunli, Li Rui, Zhan Tongzhou, Li Xiaowei, Wu Dong, Lau Pakming, Qiu Bensheng, Bi Guoqiang, Ding Weiping

2022-Nov-03

coaxial constraints, femtosecond laser writing, neurite growth, neuronal connections, porous microtubes