丝素
干细胞
神经干细胞
轴突
细胞生物学
体内
材料科学
细胞
神经科学
生物医学工程
化学
生物
医学
丝绸
生物技术
生物化学
复合材料
作者
Zhangze Yang,Yuxin You,Xiangyu Liu,Quan Wan,Zongpu Xu,Yajun Shuai,Jie Wang,Tingbiao Guo,Jiaqi Hu,Junhui Lv,Meng Zhang,Mingying Yang,Chuanbin Mao,Shuxu Yang
出处
期刊:Research Square - Research Square
日期:2024-01-05
标识
DOI:10.21203/rs.3.rs-3821497/v1
摘要
Abstract Brain damage is a common tissue damage caused by trauma or diseases, which can be life-threatening. Stem cell implantation is an emerging strategy treating brain damage. The stem cell is commonly embedded in a matrix material for implantation, which protects stem cell and induces cell differentiation. Cell differentiation induction by this material is decisive in the effectiveness of this treatment strategy. In this work, we present an injectable fibroin/MXene conductive hydrogel as stem cell carrier, which further enables in-vivo electrical stimulation upon stem cells implanted into damaged brain tissue. Cell differentiation characterization of stem cell showed high effectiveness of electrical stimulation in this system, which is comparable to pure conductive membrane. Axon growth density of the newly differentiated neurons increased by 290% and axon length by 320%. In addition, unfavored astrocyte differentiation is minimized. The therapeutic effect of this system is proved through traumatic brain injury model on rats. Combined with in vivo electrical stimulation, cavities formation is reduced after traumatic brain injury, and rat motor function recovery is significantly promoted.
科研通智能强力驱动
Strongly Powered by AbleSci AI