nmj
- 网络神经肌肉接头;神经肌肉接头处;神经肌接头;神经一肌肉接头
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Then the rats were killed and the changes of NMJ ultrastructure were observed with electron microscope .
处死大鼠,电镜下观察神经肌肉接头超微结构的变化。
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The morphological changes of NMJ may be modulated by activity and also be dependent on age and muscle fiber type .
NMJ的形态学变化可受肌体活动程度的影响并与年龄及肌纤维类型相关。
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? Objective : To observe the histological changes and nerve muscle junction ( NMJ ) in the target muscle after end to side neurorrhaphy .
目的:研究神经端侧缝合术后靶肌肉的组织学变化和运动终板再生。
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Much of our knowledge of the NMJ has been obtained through imaging techniques , some of which were developed particularly to visualize this synapses structure and function .
成像技术提供了诸多关于神经肌肉接头的信息,其中一些技术是专为观察该突触的结构和功能而发展起来的。
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Neurotrophins may also regulate synaptic transmission at the NMJ by increasing local release of neuregulin or other nerve-derived modulators .
在NMJ,神经营养因子还能通过影响神经调节素(neuregulin)或其他神经源性调制物质的局部释放,对接头传递进行调节。
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The neuromuscular junction ( NMJ ) forms the communicative link between motoneurons and muscle fibers . Remodeling of neuromuscular junction appears to be a lifelong process .
神经肌肉接头(Neuromuscularjunction,NMJ)作为运动神经元与骨骼肌之间的突触连接,一生中持续经历重构过程。
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Objective To further study the pathological characteristics at pre and post synaptic membranes of the neuromuscular junction ( NMJ ) in patients with myasthenia gravis ( MG ) and their significance .
目的探讨重症肌无力(MG)时神经肌肉接头(NMJ)突触后、前膜的变化及其意义。
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AIM : To reproduce experimental autoimmune myasthenia gravis ( EAMG ) model in rats and evaluate the effects of Huangqi compound intervention on ultrastructure of neuromuscular junction ( NMJ ) in rats .
目的:复制实验性自身免疫性重症肌无力模型大鼠,观察中药黄芪复方干预后其神经肌肉接头超微结构的变化。
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However , up to date , the research about the change and plasticity of NMJ during development in masticatory muscles remain scared , and the impacts of food characteristics on the development of NMJ are also unknown .
但是迄今为止,关于咀嚼肌神经肌肉接头在咀嚼形成过程中的变化特征、以及由食物性状差异带来的咀嚼活动变化对其发育影响的研究尚不多见。
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Early in 1952 , Fatt and Katz first recorded spontaneous miniature end-plate potentials ( MEPP ) in frog NMJ , and showed that they were the result of spontaneous release of transmitter substance , acetylcholine ( ACh ), from motor nerve terminals .
1952年,Fatt和Katz首先在蛙NMJ记录到自发性小终板电位(MEPP),并证明它是运动神经末梢自发释放递质性乙酰胆碱(ACh)的结果。