肾交感神经放电于刺激期间显著增加。
Electrical stimulation of the fastigial nucleus elicited a characteristicpressor response and discharges in renal appathetic nerve.
膈神经放电数及呼吸频率。
The number of phrenic nerve discharge and respiratory frequency.
对膈神经放电的影响。
记录双侧膈神经放电和气管内压作为呼吸的指标。
Thephrenic nerve discharges of both sides and the intratracheal pressure were monitored.
保持心率减慢的强直性迷走神经放电,心率上升。
The tonic vagal discharge that keeps the heart rate slow decreases, and the heart rate rises.
分别记录对照组和模型组大鼠膈神经放电及呼吸曲线。
The discharges of phrenic nerve and the curve of respiration were recorded.
提示肺迷走神经紧张性传入能加剧窒息膈神经放电反应。
The results demonstrate that the tonic vagal afferent activity can markedly increase the phrenic discharge response to asphyxia.
目的:揭示神经放电起步点“临界敏感”现象的方向性特征。
AIM: To explore the direction characteristics of "critical sensitivity" phenomena in neural firing pacemaker.
为了得到有规律的刺激和刺激强度与神经放电频率的关系还需要一步的实验。
The experiment should be done again to investigate the regular stimulation and clear relationship between stimulation strength and the signal frequency change.
本品尚能减慢心率,改善心肌营养性血流量,并有抑制交感神经放电的作用。
APQ was found to be able to slow the heart rate in dogs, improve the myocardial nutritional blood flow in mice and inhibit the sympathetic discharges in rabbits.
目的观察慢性阻塞性肺疾病(COPD)对大鼠膈神经放电和呼吸运动的影响。
Objective to observe the effects of chronic obstructive pulmonary disease (COPD) on the discharges of phrenic nerve and the respiratory motion in rats.
对神经放电序列的重构也表明通过这几个特征量可以很好地反映序列中所包含的信息。
The reconstruction of a spike train with these variables demonstrates that the information carried by spike trains can be well preserved.
将单位的自发放电与同时记录的交感神经放电或血压变化输入微型计算机进行相关分析。
A microcomputer accepted inputs of spontaneous firing of the units, sympathetic nerve discharges or variations in blood pressure simultaneously, and crosscorrelation analysis performed.
而微量注射甘氨酸则使膈神经放电显著减少和使弓状核诱发电位P2及N2波幅显著增大。
Phrenic nerve discharges were decreased and the amplitude of P2 and N2 waves of arcuatus nucleus evoked potentials were increased by microinjection of glycine into VLNTS.
观察到一侧孤束核(NTS)区微量注射氟安定,使对侧膈神经放电平均幅度减低,呼吸频率加快。
Unilateral microinjection of flurazepam in nucleus tractus so-litarius (NTS) depressed the average phrenic activity on the contralateral side, but increased the respiratory rate.
上述结果为我们理解神经放电节律的转换规律提供了基础,有助于我们进一步认识神经信息编码及其机制。
The results above provide the basis for us to understanding neural firing rhythms transformational regulation, and are helpful to cognize neural coding and its mechanism.
事先用氨基酸脱羧酶抑制剂异烟肼处理,或用GABA受体拮抗剂印防己毒素处理,可阻遏安定减低膈神经放电幅度的作用。
Pretreatment of either isoniazid, an aminoacid decarboxylase inhibitor, or GABA receptor antagonist picrotoxin prevented thedepressant effect of diazepam on the amplitude of phrenic discharge.
像许多其他影响神经元放电的物质一样,腺苷必须首先与神经元膜上的特定受体结合。
Like many other agents that affect neuron firing, adenosine must first bind to specific receptors on neuronal membranes.
我们现在知道了大脑特定位置的神经元放电模式是人类决策产生的根源所在。
We now know that the decisions humans make can be traced to the firing patterns of neurons in specific parts of the brain.
通过把一个电极植入大脑或安装在它上面,并记录神经元的放电活动,然后通过一种算法,把这个活动翻译成计算机语言。
An electrode is implanted in or sits on top of the brain, and records patterns of neurons firing; this pattern is then translated, via an algorithm, into computer language.
当我们回忆过去的事情的时候,至少有一些同样的神经元重新放电,发生在我们身上的有效的事情触发了大脑中的神经元网状系统。
Effectively things that happen to us activate networks of neurons in the brain, and when we recall past events at least some of these same neurons fire again.
前额叶皮层的神经元网络使得神经元持续放电,从而在毫无外界提醒的情况下也能将信息记在脑中。
Networks of neurons in the prefrontal cortex generate persistent firing to keep information "in mind" even in the absence of cues from the environment.
第二件事就是他们发现在参与者清楚的记起那些特别的短片之前,神经元就开始放电约1.5秒。
The second thing they noticed was that the neurons began to fire about 1.5 seconds before participants were conscious of remembering the particular clip.
幼年动物前额叶皮层中的神经元在进行记忆活动时放电频率很高,而老年动物的神经元放电频率显然要低些。
Neurons in the prefrontal cortex of the young animals were able to maintain firing at a high rate during working memory, while neurons in older animals showed slower firing rates.
当大量带电原子或离子出入神经元时,会产生微小的跨膜电势,同时神经元放电。
Neurons fire when electrically charged atoms – ions – flood in and out of them, creating a tiny electric potential across their membranes.
由改进的数据分析来看,他们现在可以从嘈杂的电波背景中提取单个的神经元放电情况。
Thanks to improved data analysis, they can now extract from noisy electrical background the firing of single neurons.
这些神经元会对钉耙的远端所感受到的刺激物做出反射式放电,而对猴子手里抓着的这一端则没有反射。
They began to fire in response to stimuli at the end of the rake, not on the monkey’s hand.
“当我们谈论神经元放电时,那实际上并没有闪一下子电,”莱康博博士注释道。
"When we're talking about neurons firing, there's not any actual lightning," notes Dr Le Comber.
虽然他们探测的所有神经元都表现出了这种放电模式,但是他们不能肯定这些神经元的放电活动是否是同步的。
While almost all of the cells exhibited the firing pattern, the team can't say whether the firing was synchronized.
除此之外,用以模拟每秒以十倍速度放电的神经键的模拟模型没有能够符合真实系统的全面复杂性。
In addition, simple models describing each synapse as firing about 10 times per second fail to capture the full complexity of the real system.
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