材料科学
神经干细胞
电极
生物医学工程
体内
干细胞
纳米技术
细胞生物学
医学
生物
化学
物理化学
生物技术
作者
Tianhao Chen,Kylie S.K. Lau,Aryan Singh,Yi Xin Zhang,Sara Mohseni Taromsari,Meysam Salari,Hani E. Naguib,Cindi M. Morshead
出处
期刊:Biomaterials
[Elsevier BV]
日期:2024-11-09
卷期号:315: 122957-122957
被引量:11
标识
DOI:10.1016/j.biomaterials.2024.122957
摘要
Brain stimulation has been recognized as a clinically effective strategy for treating neurological disorders. Endogenous brain neural precursor cells (NPCs) have been shown to be electrosensitive cells that respond to electrical stimulation by expanding in number, undergoing directed cathodal migration, and differentiating into neural phenotypes in vivo, supporting the application of electrical stimulation to promote neural repair. In this study, we present the design of a flexible and biodegradable brain stimulation electrode for temporally regulated neuromodulation of NPCs. Leveraging the cathodally skewed electrochemical window of molybdenum and the volumetric charge transfer properties of conductive polymer, we engineered the electrodes with high charge injection capacity for the delivery of biphasic monopolar stimulation. We demonstrate that the electrodes are biocompatible and can deliver an electric field sufficient for NPC activation for 7 days post implantation before undergoing resorption in physiological conditions, thereby eliminating the need for surgical extraction. The biodegradable electrode demonstrated its potential to be used for NPC-based neural repair strategies.
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