This claim hinges on a peculiar and unique feature of our cognitive architecture: the stunningly slow development of the prefrontal cortex (PFC).
这一观点是基于人类奇特而独一无二的认知结构——发育惊人缓慢的前额皮质(pfc)。
We carried out cell recording in the primary somatosensory cortex (SI) and the prefrontal cortex (PFC) in both the well-trained and untrained monkeys.
我们在受训和未被训练的动物上,对初级触觉皮层(si)和前额叶皮层(PFC)进行单细胞记录。
The afferent projections of the prefrontal cortex(PFC) from the cerebral cortex were studied using WGA-HRP technique in 25 rats.
本实验用WGA-HRP法研究了25只大鼠大脑皮质到前额叶皮质的传入投射。
Objective: To study the cognitive disorders in brain concussion(BC) rats and to explore the relationship between cognitive disorders and the dopaminergic nerve fibers in prefrontal cortex(PFC).
目的:探讨脑震荡(BC)大鼠认知障碍的特征及其与前额叶皮质(PFC)多巴胺能神经纤维变化的关系。
The structural and functional difference of prefrontal cortex(PFC), anterior cingulate cortex(ACC), amygdala, and its neural circuitry formed th…
前额皮层、前扣带皮层、杏仁核等及其构成的神经回路的结构与机能差异是情感风格的神经基础。
The structural and functional difference of prefrontal cortex(PFC), anterior cingulate cortex(ACC), amygdala, and its neural circuitry formed th…
前额皮层、前扣带皮层、杏仁核等及其构成的神经回路的结构与机能差异是情感风格的神经基础。
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