期刊文献+
共找到1篇文章
< 1 >
每页显示 20 50 100
Skin derived precursors induced Schwann cells mediated tissue engineering-aided neuroregeneration across sciatic nerve defect
1
作者 Chengbin Xue Hui Zhu +19 位作者 Hongkui Wang Yaxian Wang Xi Xu Songlin Zhou Dong Liu Yahong Zhao Tianmei Qian Qi Guo Jin He Kairong Zhang Yun Gu Leilei Gong Jian Yang Sheng Yi Bin Yu Yongjun Wang Yan Liu Yumin Yang Fei Ding Xiaosong Gu 《Bioactive Materials》 SCIE CSCD 2024年第3期572-590,共19页
A central question in neural tissue engineering is how the tissue-engineered nerve(TEN)translates detailed transcriptional signals associated with peripheral nerve regeneration into meaningful biological processes.Her... A central question in neural tissue engineering is how the tissue-engineered nerve(TEN)translates detailed transcriptional signals associated with peripheral nerve regeneration into meaningful biological processes.Here,we report a skin-derived precursor-induced Schwann cell(SKP-SC)-mediated chitosan/silk fibroin-fabricated tissue-engineered nerve graft(SKP-SCs-TEN)that can promote sciatic nerve regeneration and functional restoration nearly to the levels achieved by autologous nerve grafts according to behavioral,histological,and electrophysiological evidence.For achieving better effect of neuroregeneration,this is the first time to jointly apply a dynamic perfusion bioreactor and the ascorbic acid to stimulate the SKP-SCs secretion of extracellular matrix(ECM).To overcome the limitation of traditional tissue-engineered nerve grafts,jointly utilizing SKP-SCs and their ECM components were motivated by the thought of prolongating the effect of support cells and their bioactive cues that promote peripheral nerve regeneration.To further explore the regulatory model of gene expression and the related molecular mechanisms involved in tissue engineering-aided peripheral nerve regeneration,we performed a cDNA microarray analysis of gene expression profiling,a comprehensive bioinformatics analysis and a validation study on the grafted segments and dorsal root ganglia tissues.A wealth of transcriptomic and bioinformatics data has revealed complex molecular networks and orchestrated functional regulation that may be responsible for the effects of SKP-SCs-TEN on promoting peripheral nerve regeneration.Our work provides new insights into transcriptomic features and patterns of molecular regulation in nerve functional recovery aided by SKP-SCs-TEN that sheds light on the broader possibilities for novel repair strategies of peripheral nerve injury. 展开更多
关键词 SKP-SCs-TEN Transcriptomic feature Reconstruction of regenerative MICROENVIRONMENT Molecular regulation Molecular regenerative-medicine
原文传递
上一页 1 下一页 到第
使用帮助 返回顶部