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Conductive ionic liquid/chitosan hydrogels for neuronal cell differentiation 被引量:1

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摘要 To regulate cell behaviors and promote nerve function recovery,three-dimensional(3D)conductive hydrogel can transmit intercellular electrical signals,and effectively provide the cell survival environment.However,produc-ing hydrogels with simultaneous high conductivity,favorable biocompatibility,and tissue-matching properties remains a challenge for spinal cord injury(SCI)treatment.Here,a conductive,multifunctional,and biocompati-ble VPImBF4 ionic liquid(IL)with photosensitive chitosan-based hydrogel(pCM@IL)is developed.The pCM@IL hydrogel exhibits a 3D microporous structure that could maintain cell viability and improve cell growth.Elas-tic modulus,conductivity,and biodegradability of the pCM@IL hydrogels are investigated with tissue-matching mechanical properties.The pCM@IL conductive hydrogels synergistically enhance neuronal cell proliferation and promote neuronal cells differentiation via upregulates synapse gene(Tubulin𝛽3,GAP43,Synaptophysin)expression.Furthermore,in vivo studies of the pCM@IL conductive hydrogels as implants demonstrate low-inflammation and neovascularize promotion and appropriate biodegradable properties.The developed pCM@IL conductive hydrogel is a promising therapeutic scaffold biomaterial for SCI repair.
出处 《Engineered Regeneration》 2022年第1期1-12,共12页 再生工程(英文)
基金 supported by National Key Research and Development Program of China(No.2016YFC1101302) self-determined and innovative research funds of WUT(S202010497265) A.K.Y.acknowledges the Royal Soci-ety Research Grant(RGS\R2\202305) G.Y.and N.J.acknowledge the Fundamental Research Funds for the Central Universities.
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