Next-Generation Bioelectric Medicine: Harnessing the Therapeutic Potential of Neural Implants [0.03%]
下一代生物电医学:利用神经植入物的治疗潜力
Susannah K Lee,Gabriella S Jeakins,Aleksi Tukiainen et al.
Susannah K Lee et al.
Bioelectric medicine leverages natural signaling pathways in the nervous system to counteract organ dysfunction. This novel approach has potential to address conditions with unmet needs, including heart failure, hypertension, inflammation, ...
Francis Lin,Ann Rajnicek,Min Zhao
Francis Lin
Listening in to the Cell [0.03%]
偷听细胞的对话
Jonathan F Ashmore
Jonathan F Ashmore
Electroconductive Hydrogels for Tissue Engineering: Current Status and Future Perspectives [0.03%]
导电水凝胶的组织工程学:现状与未来展望
Zachary J Rogers,Michael P Zeevi,Ryan Koppes et al.
Zachary J Rogers et al.
Over the past decade, electroconductive hydrogels, integrating both the biomimetic attributes of hydrogels and the electrochemical properties of conductive materials, have gained significant attention. Hydrogels, three-dimensional and swoll...
Biophysical Investigation of Sodium Channel Interaction with β-Subunit Variants Associated with Arrhythmias [0.03%]
与心律失常相关的β亚基变异体相互作用的钠通道的生物物理研究
José P Llongueras,Samir Das,Jolien De Waele et al.
José P Llongueras et al.
Background: Voltage-gated sodium (NaV) channels help regulate electrical activity of the plasma membrane. Mutations in associated subunits can result in pathological outcomes. Here we examined the interaction of NaV channels with cardiac ar...
Dual Bioelectrical Assessment of Human Mesenchymal Stem Cells Using Plasma and Mitochondrial Membrane Potentiometric Probes [0.03%]
利用等离子膜电位探针和线粒体膜电位探针评估人 mesenchymal 干细胞的双生生物电学方法
Timothy Kamaldinov,Mariah S Hahn
Timothy Kamaldinov
Background: Bioelectrical properties are known to impact stem cell fate, state, and function. However, assays that measure bioelectrical properties are generally limited to the plasma membrane potential. In this study, we propose an assay t...
Substrate-Dependent Galvanotaxis of Directly Reprogrammed Human Neural Precursor Cells [0.03%]
基质依赖性的电引导直接重编程的人类神经前体细胞迁移
Umalkhair Ahmed,Stephanie N Iwasa,Laura Poloni et al.
Umalkhair Ahmed et al.
Background: Neural precursor cells (NPCs) hold great promise for neural repair. Endogenous NPCs, found in the subventricular zone of the adult brain, proliferate and migrate toward lesion sites; however, it is not sufficient for neural repa...