缺血脑损伤大鼠皮层海马脑区的兴奋性氨基酸明显高于正常对照组。
The levels of exciting amino acids in hippocampi and cortex of ischemic brain injury rats were significant higher than those of controls.
那么,为什么会旧的记忆会从海马转移到额叶皮层?
Why, then, might old memories be transferred from the hippocampus to the frontal cortex?
慢波就像重放按钮一样,它使大脑海马状突起重新激活新记忆并使大脑皮层同步运作,从而长久储存这些新记忆。
Slow electrical waves act as a replay button, causing the hippocampus to reactivate new memories and synchronizing the neocortex so that it accepts them into long-term storage.
例如,相比于其他脑组织,海马状组织和边缘皮层常常成为阿尔茨海默氏病(早年性痴呆病)最先侵袭的对象。
For example, Alzheimer's disease often attacks the hippocampus and perirhinal cortex before other brain areas.
大部分的快捷方式与脑下皮层边缘结构有关,包括基底神经节,海马体,丘脑和伏神经核(这句作者卖弄解剖学知识的话,Cloud把它变灰了...)
Most of these shortcuts involve limbic structures at the sub-cortical level, including the basal ganglia, hippocampus, thalamus and nucleus accumbens.
研究人员表明,将记忆从海马体转移到新大脑皮层可以保护这些记忆,“使它们不被随后进入海马体的信息所干扰。”
The transfer of memories from the hippocampus to the neocortex could protect "these memories against interference from information subsequently encoded in the hippocampus," the researchers write.
在学习前小睡,可以帮助海马清空记忆内存,并发送数据到前额叶皮层,让新的信息融入到那里,沃克说。
The nap before learning may help clear out the hippocampus and send the data on to the prefrontal cortex, allowing new information to soak in, Walker says.
当人们想象未来的事件时,前额叶皮层,前扣带皮质和海马体之间,有一个复杂的的“功能耦合" 。
When people imagined future events, there was an intricate "functional coupling" between parts of the prefrontal cortex, the anterior cingulate cortex and the hippocampus.
记忆最开始的储存地点即所谓的海马体,而记忆最终的归宿乃大脑皮层,大脑皮层就像一个大容量的硬盘,不断蓄积更多的信息。
And the one storage site where they begin is a structure called the hippocampus. And the end site where they may go is up into the cortex, this large hard drive reservoir of information.
当皮层的神经细胞接受到感觉信息,他们就传递给海马状块。
As neurons out in the cortex receive sensory information, they relay it to the hippocampus.
脑缺血可上调大脑皮层和海马的神经元再生,这可能是一种重要的神经保护机制。
Ischemia could stimulate neurogenesis in the cerebral cortex and hippocampus which is considered as a very important neuronal protection mechanism.
地黄饮子能通过改善鼠脑神经元胆碱能损害,来上调海马和皮层神经元syn蛋白的表达,使突触传递功能恢复。
DR increases the expression of syn of cortical and hippocampal neurons by improving the injury of cholinergic neuron to recovery the function of synaptic transmission.
情绪的脑机制——大脑回路,包括前额皮层、杏仁核、海马、前部扣带回、腹侧纹状体等。
The brain circuitry underlying emotion includes the prefrontal cortex, the amygdala, hippocampus, anterior cingulate, ventromedial striatum and et al.
目的观察绞股蓝总皂苷(GP)对血管性痴呆大鼠大脑皮层及海马的DNA和RNA的影响。
Object To observe the effect of gypenosides (GP) on the DNA and RNA in cerebral cortex and hippocampus in vascular dementia rat.
结论:脑尔康能明显降低老年痴呆模型小鼠皮层及海马胆碱酯酶活性,并有保护海马ca 1区神经元的作用。
CONCLUSION: Naoerkang is able to decrease the acetylcholinesterase activity in the cerebral cortex and hippocampus of AD model mice and protect the neurons in the hippocampal CA1 region.
目的探讨海马及皮层的氧自由基损伤与大鼠学习能力和记忆能力的关系。
Objective To investigate the relationship bet ween the learn and memory on the damaged hippocampus and damaged cortex of rats by oxygen free radicals.
方法采用电镜技术观察腹腔内注射细菌脂多糖对大鼠皮层、海马及下丘脑突触结构的影响。
Methods Electromicroscopy technique was used in this experiment, to investigate the synapse structure changement of rat cerebral cortex, hippocampus and hypothalamus after peritoneal injection of LPS.
免疫组化的结果还显示SCDR10B在小脑胶质瘤和脑膜瘤中表达,在正常大脑皮层和海马神经元也有分布。
Using the immunohistochemistry method, SCDR10B also found to be transcripted in Glimoa, meningioma, normal cerebral cortex and hippocampal neurons.
目的:研究缺氧缺血性脑损害新生猪海马皮层病理改变及ATP生成率、ATP合成酶活性变化。
Objective: To study the changes of pathology, ATP production rate and ATP synthase activity in hippocampal cortex of neonatal pigs after hypoxic-ischemic brain damage (HIBD).
结果模型组下丘脑腹侧核、海马CA1区、前额叶皮层NPY免疫阳性反应物明显降低;
Result In the model group, the immunoreaction masculine substance of NPY, hypothalamus ventral kernel, hippocampi CA1 area and prefrontal cortex decreases obviously.
结论G P可明显减轻血管性痴呆大鼠大脑皮层及海马的DNA和RNA损伤。
Conclusion the injury to the DNA and RNA in cerebral cortex and hippocampus in vascular dementia rat was obviously decreased by GP.
目的通过观察异氟烷对大鼠皮层、海马及脊髓氨基酸类递质含量的影响,从在体水平探讨异氟烷麻醉作用的可能机制。
Objective To determine the effects of isoflurane on the amino acid neurotransmitter contents in rat cerebral cortex, hippocampus and spinal cord.
目的观察新生鼠缺血缺氧性损伤后皮层及海马神经干细胞的变化。
Objective To investigate the influence of hypoxic- ischemic(H-I) injury on the endogenous Neural Stem Cells (NSCs) of the cerebral cortex and hippocampus in the neonatal rats.
缺血再灌注组脑皮层及海马CA1区苏木精-伊红染色示典型的迟发性神经元坏死。
The cells stained with haematoxylin and eosin displayed typical tardus neuron cellular necrosis in pallium and hippocampal CA1.
凋亡细胞主要分布在海马、大脑皮层。
其中NR2B是NMDA受体的主要亚基之一,在大脑皮层、海马和嗅球表达水平很高。
NR2B subunits which are highly expressed in the cortex, hippocampus and olfactory bulb, are one of the key subunits of NMDA receptors.
作为一种有节律的神经活动,神经振荡现象发生在所有的神经系统中,例如大脑皮层、海马、皮层下神经核团以及感觉器官。
As a rhythmic neural activity neural oscillation exists all over the nervous system, in structures as diverse as the cerebral cortex, hippocampus, subcortical nuclei and sense organs.
利用甲苯胺蓝染色法计数海马各区及额、颞叶皮层神经细胞。
Toluidine blue stained was used to number the remained neural cells in hippocampus and cortex of temporal and frontal lobe.
利用甲苯胺蓝染色法计数海马各区及额、颞叶皮层神经细胞。
Toluidine blue stained was used to number the remained neural cells in hippocampus and cortex of temporal and frontal lobe.
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