Peelen Marius V, Heslenfeld Dirk J, Theeuwes Jan
Department of Psychology, Vrije Universiteit, Amsterdam, The Netherlands.
Neuroimage. 2004 Jun;22(2):822-30. doi: 10.1016/j.neuroimage.2004.01.044.
Event-related fMRI was used to examine the neural basis of endogenous (top-down) and exogenous (bottom-up) spatial orienting. Shifts of attention were induced by central (endogenous) or peripheral (exogenous) cues. Reaction times on subsequently presented targets showed the expected pattern of facilitation and inhibition in both conditions. No difference in brain activity was observed when the two orienting conditions were contrasted with a liberal threshold, showing that both forms of orienting were mediated by the same neural network. Compared to within-block control trials, both endogenous and exogenous orienting activated a fronto-parietal network consisting of premotor cortex, posterior parietal cortex, medial frontal cortex and right inferior frontal cortex. Within these regions, equally strong activation was observed for both orienting conditions. It is concluded that endogenous and exogenous orienting are mediated by the same large-scale network of frontal and parietal brain areas.
事件相关功能磁共振成像被用于研究内源性(自上而下)和外源性(自下而上)空间定向的神经基础。注意力的转移由中央(内源性)或外周(外源性)线索诱发。随后呈现目标时的反应时间在两种情况下均显示出预期的促进和抑制模式。当以宽松阈值对比两种定向条件时,未观察到脑活动的差异,表明两种定向形式均由相同的神经网络介导。与组内对照试验相比,内源性和外源性定向均激活了一个由运动前皮层、顶叶后皮层、内侧额叶皮层和右下额叶皮层组成的额顶网络。在这些区域内,两种定向条件均观察到同等强度的激活。得出的结论是,内源性和外源性定向由额叶和顶叶脑区的相同大规模网络介导。