以钨丝微电极记录左侧海马单细胞放电。
Single unit discharges of the left hippocampal formation were recorded by tungsten microelectrode.
目的设计有效、简便的锥体细胞放电时相检测程序,并检测豚鼠海马CA 1区锥体细胞在视觉分辨任务中放电时相的变化。
Objective To detect the change of discharge phase of guinea pig hippocampal CA1 pyramidal cells during visual discriminative task with an effective and convenient program we designed.
这些放电细胞通常是相互绝缘。
These cells are normally electrically isolated from one another.
西雅图华盛顿大学的神经科学家威廉穆迪(William Moody)说,如果这些神经元确实是波浪式放电,那么这些神经元就可以通过这种方式向其他神经细胞发出位置信号。
If the cells do fire in waves, that could be their way of signaling their location to other brain cells, says neuroscientist William Moody of the University of Washington in Seattle.
该病的特点是反复发作——由一群脑细胞突然且通常是短暂过度放电而产生的物理反应。
It is characterized by recurrent seizures - which are physical reactions to sudden, usually brief, excessive electrical discharges in a group of brain cells.
癫痫放电促使星形细胞瘤第二次激活,这可能会使癫痫扩散。
Epileptic discharge, in turn, triggers a second activation of astrocytes that may favour seizure propagation.
用玻璃微电极细胞外记录依赖组和对照组大鼠海马神经元自发放电。
The spontaneous unit discharges of the hippocampus were observed in the dependent and control rats by the extracellular single-unit recording with glass microelectrodes.
方法细胞外记录神经元放电。
Methods The discharge frequency of neurons was recorded by extracellular recording.
方法:以L 5脊神经结扎制备大鼠神经病理性痛模型,利用分离背根单纤维细胞外电生理记录异位放电。
Methods: Using L5 spinal nerve ligation as neuropathic pain model of rats, teased fiber recording technique was used to explore the property of ectopic discharges.
冷却致区可以抑制神经细胞的异常放电,使其有望成为治疗难治性癫的重要手段之一。
Cooling epileptogenic foci can inhibit the abnormal discharge, it is expected to become the one of the important means of treatment of refractory epilepsy.
生物学试验结果表明,高压放电基因枪能有效地将 外源基因导入植物细胞并得到表达。
The biological tests pro ve that the foreign gene can be introduced into plant cells and can be expressed effectively using the high voltage discharge gene gun.
这提示大多数海马cs细胞具有其各自独特且相对恒定的丛状放电特征。
This suggests that most hippocampal cs cells have relatively stable and distinct burst characteristics.
癫痫是一种临床综合症,它的特征是大脑神经细胞反复发作的异常放电大脑功能失调导致癫痫发作。
Epilepsy is a clinical syndrome, which is characterized by recurrent attacks of brain cells in abnormal discharge of brain dysfunction caused seizures.
方法:通过单细胞细胞外记录吗啡依赖大鼠腹侧苍白球的电信号,观察吗啡对放电的影响。
Methods:The firing of ventral pallidal neurons in the action of morphine and naloxone was recorded and analyzed in the morphine dependent rats with extracellular single-unit recording.
结果根据放电形式的不同把海马锥体细胞分为位相型和非位相型放电神经元。
Results According to the firing patterns, the hippocampal pyramidal neurons were classified into phasic or non-phasic firing neurons.
发育早期神经元无镁诱导的惊厥样放电对发育中神经元线粒体功能的影响可以从早期开始持续相当长的一段时间,从而导致细胞功能的长期改变。
The effect on the mitochondrial function of developing neurons after magnesium-free-induced seizure-like discharge may from the acute phase which lasted for a long period of time.
在大鼠下丘脑离体脑片上,用电生理细胞外记录法研究了前连合核神经元的放电频率及其波形。
The firing rates and patterns of neuronal activity in the anterior commissural nucleus (ACN) were studied on in vitro hypothalamic slices using electrophysiological techniques.
即使速度变化范围很大,顶盖前细胞的放电频率也与速度无关,但却依赖速度在时间上的变化(加速度)。
In a broad range of speeds, the firing rates of these cells depend on the changes of speeds over time (acceleration) but not on speed per se.
其作用可能在于阻断脑细胞的电压依赖性钠通道,因而可阻止病灶放电的散布。
Its role is to block the brain cells may be voltage-dependent sodium channels, which can prevent the spread of lesions discharge.
遗传可以影响细胞膜离子通道的功能,降低惊厥阈值,引起神经元放电。
Genetics can affect the function of ion channels and reduce the seizure threshold, causing neurons.
遗传可以影响细胞膜离子通道的功能,降低惊厥阈值,引起神经元放电。
Genetics can affect the function of ion channels and reduce the seizure threshold, causing neurons.
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