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- The amygdala also sends information back to the frontal cortex. 杏仁体也会将讯息传回额叶皮质。
- As in the trolley studies, there was also activity in the frontal cortex. 正如以上对有轨电车的研究中一样,前脑皮层中也出现了活动。
- L EK levels of frontal cortex were lower than those of hypothalamic, pituitary(?P?<0.05). 大鼠额叶皮质L EK含量均较下丘脑、垂体L EK含量低 ;有显著性差异 (P <0 .;0 5 )。
- Conclusion The frontal cortex of children with LD might have hypoplasia or functional dysfunction. 结论学习障碍儿童前额叶皮质可能存在功能发育不全或缺陷。
- Serotonin normally arrives in the frontal cortex by way of the raphe nucleus, a structure that also communicates with the locus coeruleus. 血清张力素除了其他的作用外,对于情绪及睡眠周期的调节也可能相当重要。
- The rat is placed into a cage with the lever, and the anticipatory sense of mastery might well activate the pleasurable dopaminergic projections to the frontal cortex. 接著,这只老鼠被放进另外一个也有槓杆的笼子;由于牠对自己的技巧深具信心,因此可能活化了通往额叶皮质的多巴胺通路而引起快感。
- The dark cell nucleus and light cell cytoplasm of FLI cell body were examined in frontal cortex V, mesencephalic reticular formation and dorsal raphe nucleus in BD rat. 额皮质V层、中脑网状结构和中缝背核内见到胞核深染、胞浆浅染的FLI神经元胞体。
- Objective To observe the effect of Tongxinluo on the ability of learning and memory and the cAMP level in frontal cortex and hippocampus in mice with vascular dementia(VD). 目的观察通心络对血管性痴呆小鼠学习记忆能力及额叶皮质和海马环磷酸腺苷(cAMP)水平的影响。
- MDMA caused the decrease of 5-HT in rat frontal cortex, hippocampus and striatum,but no significant influence on DA; the expression of SERT mRNA was down-regulated significantly. 给予MDMA后 ;大鼠额叶皮层、海马和纹状体的 5 -HT下降 (P <0 0 0 1) ;SERTmRNA的表达明显减少 (P <0 0 0 1)。
- Finally, bombarding the left frontal cortex of the brain with a strong magnetic field elicits a positive mood in human subjects, and the reverse elicits a negative mood. 最后,以强力磁场刺激受试者脑部的左额叶区,会引发他们正面的情绪;刺激右额叶区,引发的则是负面情绪。
- The frontal cortex, which starts just behind the eyes and goes back almost to the ears, figures out what to do when a person is asked to juggle multiple pieces of information. 当一个人被要求处理多项资讯时,会由额叶皮质区(从眼睛后方开始,向后延伸几乎到达耳朵之间的区域)想出该做什麽。
- Results: TFK could significantly strengthen POMC mRNA expression in hippocampal CA1 and hypothalamus and inhibit obviously that in frontal cortex of chronic fatigue rats. 结果:对于慢性运动应激,体复康能增强POMC在海马CA1区、下丘脑部位的基因表达,而能降低POMC在额叶皮层的基因表达。
- Results In frontal cortex we found that there was a lot of lipofuscin in 1m, and the number declined in 2m;then it was similar to the sham-treated control group. 结果额叶皮层:1月时见额叶皮层大量脂褐素,2月有所下降,后与假手术对照组相仿,暗神经元则在2月时最多,后下降;
- The left vagus nerves were stimulated with intermittent current pulses before and after seizures,The ECoG of frontal cortex and evoked discharges of CA1 area in hippocampus were recorded by silver ball electrode and metal microelectrode, respectively. 在癫痫发作前后分别给予大鼠左侧迷走神经间断刺激,用银球电极与金属微电极分别记录皮质电图和海马CA1区神经元电活动的变化。
- In addition to processing abstract associations, as noted above, the frontal cortex helps to make judgments about incoming information and initiating behaviors based on those assessments. 除了进行前述抽象联想的功能外,额叶皮质也会帮忙判断输入的讯息,并根据评估结果引发适当的行为。
- The results reealed that the central bottleneck was caused by the inability of the lateral frontal and prefrontal cortex, and also the superior frontal cortex, to process the two tasks at once. 结果显示中枢瓶颈是由于同时处理两件任务的侧前方和额叶前部大脑皮层,以及额上皮层不能正常发挥功能所致。
- Caps studded with electrodes revealed that when subjects learned they had won or lost wagers, electrical activity was highest in the medial frontal cortex, situated behind the prefrontal cortex. 由戴在头上嵌有电极的头罩记录显示,受试者在赢得或输掉赌注之时,位于前额叶皮质后头的内侧额叶皮质,会出现最大量的电流活性。
- The increase of ACh release in the frontal cortex after perfusion of high[K +] solution(100 mmol/L) through the dialysis probe was 30.18% in aged rats, but it was 96% in young rats. 老龄大鼠额叶胆碱能神经元对高 [K+ ]溶液的反应较弱 ;乙酰胆碱的释放量仅增加 3 0 .;18%25;而年轻大鼠可增加 96%25。
- Methods:To research the effects of prenatal cocaine exposure on spatial resolution in the water maze test and observe the development of frontal cortex and hippocampus by toluidine blue staining. 方法:运用水迷宫方法观察可卡因对子鼠空间辨别能力的影响;采用甲苯胺蓝染色技术观察额叶皮质及海马的发育情况。结果:可卡因可引起子代寻找平台的潜伏期延长、空间辨别能力下降;
- Previous clinical reports reveal the key role of the secondary auditory cortices and the inferior frontal cortices in processing musical information. 先前的临床报告透露,次级听觉皮质与额叶下方区域在音乐讯息处理中扮演关键性的角色。