神经胶细胞会影响突触的形成,也会帮助决定神经连结随时间而增强或减弱,这种变化是学习与储存长期记忆所必需的。
Glia influence the formation of synapses and help to determine which neural connections get stronger or weaker over time; such changes are essential to learning and to storing long-term memories.
靠著神经胶细胞的支持,神经元可以透过称为突触的微小接触点,自由沟通并建立连结网路,让我们能够思考、记忆及在高兴时手舞足蹈。
Propped up by glia, neurons were free to communicate across tiny contact points called synapses and to establish a web of connections that allow us to think, remember and jump for joy.
我们与其他人的研究至此得出了结论:神经胶细胞藉著侦测由激发轴突释放或是从突触渗漏的AT P,而能知道神经元产生了动作电位。
To THIS POINT, work by us and others had led to the conclusion that a glial cell senses neuronal action potentials by detecting ATP that is either released by a firing axon or leaked from the synapse.
如果讯号可以全面传送到整个星状细胞线路,那么在某一处的神经胶细胞,就可以活化远处的神经胶细胞,进而协调不同脑区中神经网路的活动了。
If signals can travel extensively through astrocyte circuits, then glia at one site could activate distant glia to coordinate the firing of neural networks across regions of the brain.
目的:研究聚乳酸管注入白芨胶和雪旺细胞对周围神经再生的影响。
Objective:To study the influence of peripheral nerve regeneration through polylactic acid conduit with bletilla colloid(BC)and schwann cells(SCs).
最常见的神经胶质瘤为神经胶母细胞瘤,神经胶质瘤形成的因素至今尚未完全明朗。
The most common glioma is glioblastoma multiforme and the possible causes are not fully understood.
目的研究雪旺细胞生物蛋白胶复合物构建组织工程神经,修复周围神经缺损的效果。
Objective To investigate the outcome of repairing the peripheral nerve defects with the tissue engineered nerve constructed by Schwann cells and fibrin glue.
目的研究雪旺细胞生物蛋白胶复合物构建组织工程神经,修复周围神经缺损的效果。
Objective To investigate the outcome of repairing the peripheral nerve defects with the tissue engineered nerve constructed by Schwann cells and fibrin glue.
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