类有机物
诱导多能干细胞
神经发生
刺激
干细胞
人脑
再生医学
细胞生物学
神经科学
计算机科学
生物
胚胎干细胞
生物化学
基因
作者
Mostafa Najarasl,Majid Halvaei,Rouhollah Abolhasani,Sara Mirsadeghi,Susan Simorgh,Saeid Rahmani,Paria Pooyan,Elham Yektadoost,Sahar Kiani,Mohammad-Reza Abolghasemi-Dehaqani,Mohammad Javan,Mohammad Kazemi Ashtiani,Hossein Baharvand
标识
DOI:10.1016/j.cej.2024.150368
摘要
Human brain-like 3D cultures or brain organoids are promising models for expanding our knowledge of brain development and the mechanisms that contribute to neurological disorders. Moreover, it may address the hardware bottleneck for the fast-growing field of artificial intelligence and the development of brain-machine interfaces. Current methods for developing brain organoids are limited mainly due to insufficient differentiation and inaccurate structural organization. Here, a novel engineering approach is proposed to accelerates the development of human cerebral organoids by electrical stimulation via an electrical bioreactor. This approach not only promotes proliferation and neurogenesis but also improves function, network formation, and organization of the cortical plate into upper and deep layers in which PI3K/Akt pathway at least partially participates. These results demonstrate the impact of electrical stimulation on generation of more mature and the functional cerebral organoids and may provide new insights into the hardware of its applications.
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