1·These regions were in the frontopolar cortex and the parietal cortex.
这两个区域在额极皮层和顶叶皮层 中。
2·The researchers observed enhanced activity in the intra-parietal sulcus, a part of the parietal cortex.
研究者观察到大脑皮层顶叶顶内沟活动增强。
3·MethodsBrain water content of parietal cortex and striatum tissues are measured with specific gravity (SG).
使用比重法(SG)检测顶叶皮层和纹状体的组织含水量。
4·Other areas the researchers found to be related to pain included the posterior parietal cortex, thought to play an important role in controlling attention.
研究人员发现,与疼痛相关的其他脑区还包括后顶叶皮层。该区域被认为在注意力控制过程中发挥了重要作用。
5·When the researchers directly stimulated one part of the parietal cortex, patients reported feeling that they would like to move, although they did not do so.
当研究人员直接刺激顶叶的某一个部分时,病人们表示感觉到他们想要行动,即使他们并没有行动。
6·The activated brain regions include the primary motor cortex, right posterior parietal cortex, bilateral cerebellum, and some regions in the prefrontal cortex.
与口香糖咀嚼相关的脑区有初级运动皮层,右侧后顶叶,双侧小脑,以及双侧前额叶的部分区域。
7·In the earlier 2 hours, the SD waves usually spread across the whole left parietal cortex, however, the optical signals showed significant regional differences.
前两小时内的扩散性抑制波通常会侵袭整个左侧顶叶皮层,但光信号有明显的区域差异。
8·Objective To observe the ultrastructure changes of intoxicated mice parietal cortex caused by bongkrekic acid (BKA) and to explore the mechanism of BKA poisoning.
目的观察米酵菌酸对小鼠顶叶皮质毒性作用的超微结构改变,探讨米酵菌酸的中毒作用机理。
9·During the later 2 hours, the waves were restricted in the central parietal cortex, and the propagated area decreased reversely with the increasing times of SD waves.
后两小时内的扩散性抑制波局限于顶叶皮层中央区域,且传播面积逐次减少;
10·During this learning period, parts of the brain called the right premotor cortex, the right parietal cortex and the left cerebellum became active, PET images revealed.
在这学习期间,脑部的正确的皮质,右顶叶皮质和左侧小脑变得活跃、PET影像显示。