机译:具有高特征频率的光聚合的微图案克服了化学脉动边框,以直接神经突生长
Department of Chemical and Biochemical EngineeringUniversity of IowaIowa City IA USA;
Department of Otolaryngology – Head and Neck SurgeryUniversity of IowaIowa City IA USA;
Department of Chemical and Biochemical EngineeringUniversity of IowaIowa City IA USA;
Department of Otolaryngology – Head and Neck SurgeryUniversity of IowaIowa City IA USA;
Department of Chemical and Biochemical EngineeringUniversity of IowaIowa City IA USA;
Department of Otolaryngology – Head and Neck SurgeryUniversity of IowaIowa City IA USA;
cochlear implant; methacrylate; neural prosthesis; neural regeneration; photopolymerization;
机译:具有高特征频率的光聚合的微图案克服了化学脉动边框,以直接神经突生长
机译:定向螺旋神经节神经突和雪旺氏细胞生长的光聚合微特征
机译:使用允许和信号量3F化学脉冲信号的微模式的轴突生长动态监测系统
机译:通过用光聚合的微图示将神经生长提高耳蜗植入性能
机译:具有高特征频率的光聚合微图案克服了化学脉冲边界可指导神经突生长
机译:通过TRPV1通过TRPV1募集rhOA /岩体产生的微选核特征,直接细胞和神经突生长