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.
相比之下,海马的活动一降再降,我们知道海马处于内侧颞叶,对记忆的形成至关重要。
By contrast, activity in the hippocampus, a region of the medial temporal lobe known to be crucial for memory formation, was found to be reduced reduced.
在直视下切除颞叶内侧结构(杏仁、海马、钩回及海马旁回等)。
Medial temporal lobe structures of resection which include the amygdala, the hippocampus, the uncal gyrus and parahippocampus is done.
目的提高海马及岛叶胶质瘤的诊断治疗效果。
Objective To improve the diagnostic and curative effect on gliomas in the hippocampus and insular lobe.
结论:颞叶癫痫大鼠海马gad67蛋白表达的增高是癫痫发生后机体的内源性抗痫机制之一。
CONCLUSION: the up-regulation of the expression of hippocampal GAD67 protein in rats with temporal lobe epilepsy is one of the mechanisms of organic endogenous anti-epilepsy after seizures.
颞叶每端各包含一个杏仁体和名叫海马回的海马状组织。
Each lobe includes an amygdala and a seahorse - shaped structure called the hippocampus.
目的探讨颞叶癫痫大鼠海马CA 1区突触超微结构与空间记忆能力改变的关系。
Objective To investigate the relationship between the synaptic ultrastructure of CA1 region in hippocampus and the space memory ability in temporal lobe epileptic male rats.
结果显示颞叶下皮质淀粉样蛋白沉积量的增加影响了与海马之间的联系,进而导致神经元的死亡。
The results indicate that the increased accumulation of amyloid in the temporal inferior cortex disrupts connections with the hippocampus, causing the neurons to die.
尽管长时间的热性惊厥是颞叶癫痫的危险因素,但是还是不清楚热性惊厥是否诱发了海马的异常改变。
Although prolonged febrile seizure is a risk factor of temporal lobe epilepsy, it is not clear whether febrile seizure provokes hippocampal abnormalities.
方法颞叶癫痫患者中8例海马硬化和7例非海马硬化,以正常海马解剖为对照,观察两患者组海马各亚群神经元脱失情况。
Metho ds The loss number of hippocampus subgroup neuron were studied in the two gro ups of 8 HS and 7 non-HS of TLE patients, compared with normal hippocampus.
掺杂的高效价脸部表情在颞叶视觉皮质区、丘脑、和杏仁海马移行区综合体中进行。
Mixed high - valence facial expressions are processed within temporal lobe visual cortex, thalamus , and amygdalohippocampal complex.
目的探讨红藻氨酸诱导的慢性颞叶癫痫鼠脑海马突触重建及胶质增生与颞叶癫痫发病机制的关系。
Objective To investigate the relationship between gliosis, synaptic reorganization and the mechanism of chronic temporal lobe epilepsy induced by kainic acid.
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.
结果12 7例颞叶癫痫患儿中,9例(7.1% )海马有萎缩性改变,且在T2加权成像和液体率减恢复(FLAIR)成像上呈高信号。
Results Of 127 patients, 9 (7.1%) cases had hippocampal atrophy and showed hyperintense on T2-weighted and fluid-attenuated inversion recovery imaging (FLAIR).
结论:颞叶癫痫患者脑海马结构主要细胞脱失,门区神经元脱失是脑海马硬化的主要特点。
CONCLUSION: the main cell loss of hippocampal structure and neuron loss in gate loss are the main characteristics of hippocampal sclerosis in patients with temporal lobe epilepsy.
在22名出现海马区异常信号的儿童中,有27%的儿童异常的T2信号出现在相邻的颞叶、杏仁核或岛叶。
4, Abnormal T2 signalwas present in the adjacent temporal lobe, amygdala, or insula in 27% of the 22children with abnormal hippocampal T2 signal compared with none of thecontrols.
研究发现,与正常人相比,TLE患者静息时海马、颞极、额叶、颞叶、丘脑及楔前叶等脑区与后扣带回的功能连接增强。
Compared to normal controls, it found that the hippocampus, temporal pole, frontal lobe, temporal lobe, thalamus and precuneus exhibited more significant functional connectivity with the PCC in TLE.
刺激可以驱使颞叶和海马回的活性,这些是脑部记忆回路的主要部分。
Stimulation was shown to drive the activity in the temporal lobe and hippocampus, key components of the brain's memory circuit.
患者均行单侧前颞叶手术,手术病理示不同程度海马硬化。
Unilateral anterior temporal lobectomy was performed in all patients and pathology showed different degrees of hippocampal sclerosis.
目的:通过观察颞叶癫痫大鼠海马CA 1区超微结构变化,探讨颞叶癫痫的发病机制。
Objective To investigate the mechanism of temporal lobe epilepsy through observing ultrastructural changes of CA1 region in hippocampus in temporal lobe epileptic male rats.
孤独症患儿与精神发育迟滞患儿双侧额叶和双侧颞叶海马区神经元数量或功能无明显差异。
There is no difference in neuronal quantity or function of bilateral frontal lobe and hippocampus between autism and MR children; 2.
前颞叶、杏仁核-海马切除5例,神经导航下选择性杏仁核-海马切除1例;
Combining anterior temporal lobectomy and amygdalo hippocampectomy in 5 cases , selectively amygdalo hippocampectomy under neuronavigation in 1 case;
前颞叶、杏仁核-海马切除5例,神经导航下选择性杏仁核-海马切除1例;
Combining anterior temporal lobectomy and amygdalo hippocampectomy in 5 cases , selectively amygdalo hippocampectomy under neuronavigation in 1 case;
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