结论大鼠杏仁内侧核内的NADPH d阳性终末主要起源于上述核团,并且提示它们参与杏仁内侧核的功能调节。
Conclution the NADPH-d positive terminals in the me originates from the aforementioned nucleus, and may relate to the function of the me.
这组数据表明,当被试们自荐回想起以前的记忆时,内侧颞叶结构(海马和杏仁核)的活动也逐渐减少。
This data set showed that medial temporal lobe structures (the hippocampus and amygdala) exhibited gradually decreasing activity as the participants recalled progressively older memories.
只有很亲密的人的照片,仍然会激发大脑中包括杏仁核、下丘脑、内侧前额皮层在内的“鼓励中心”。
Only photos of loved ones, however, sparked activity in rewardcenters within the amygdala, hypothalamus and medial orbitofrontal cortex.
这些信号的检测及对行为的影响主要通过由嗅球经内侧杏仁核至下丘脑的神经通路所完成。
A discrete neural pathway from the olfactory bulb to the hypothalamus via the medial amygdala detects these odorants and regulates the innate social behaviors.
特别强调了情绪唤醒对杏仁核的影响,以及杏仁核与其它内侧颞叶结构和前额叶的相互作用。
The affection of emotional arousal to amygdale, and the interaction among amygdale, medial temporal lobe and prefrontal cortex were specially emphasized.
同时,杏仁核也通过与导水管周围灰质、延髓头端腹内侧区及其它脑干核团的纤维联系参与镇痛过程。
On the other hand, amygdala may also be involved in pain modulation through connections with periaquiductal gray (PAG), rostral ventromedial medulla (RVM), and other brain stem areas.
用逆行HRP标记法研究了大白鼠杏仁复合体皮质内侧核群及基底外侧核群的皮质下传入性联系。
The subcortical afferent connections of the corticomedial and basolateral nuclear groups of the amygdaloid complex of the rat were studied with HRP labeling method.
我们运用电生理、神经示踪、遗传工程及行为分析的手段,研究嗅觉信号在嗅球,内侧杏仁核及下丘脑的加工和表征。
We are using approaches including electrophysiology, neural tract tracing, genetic engineering, and behavioral assay to study the representation of the olfactory signals in this pathway.
我们运用电生理、神经示踪、遗传工程及行为分析的手段,研究嗅觉信号在嗅球,内侧杏仁核及下丘脑的加工和表征。
We are using approaches including electrophysiology, neural tract tracing, genetic engineering, and behavioral assay to study the representation of the olfactory signals in this pathway.
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