Cognitive Neuroscience Research Unit, Wolfson Research Institute, University of Durham, Stockton-on-Tees, United Kingdom.
Brain Stimul. 2009 Apr;2(2):81-7. doi: 10.1016/j.brs.2008.07.005.
Voluntary eye movements and covert shifts of visual attention activate the same brain regions. Specifically, the intraparietal sulcus and the frontal eye fields (FEF) appear to be involved both with generating voluntary saccades as well with attending to a peripheral spatial location. Furthermore, these regions appear to be required by both tasks--functional disruption of these regions impairs both tasks. Therefore, it appears that the targeting system that allows us to plan saccades is the same system that allows us to covertly track peripheral visual information. Recent neuroimaging studies suggest that these brain regions are also activated when participants engage in auditory spatial attention tasks. However, it remains unclear whether these regions are required by these tasks. We used repetitive transcranial magnetic stimulation (rTMS) to disrupt the FEF while participants performed an auditory localization task. On each trial, a visual cue directed attention to the probable laterality of the auditory target, and the participant decided whether the subsequent target sound came from an upper or lower speaker. In the absence of TMS, individuals were faster to respond to targets that occurred on the cued side (valid trials) than when the target appears contralaterally to the cued side (invalid side). TMS interfered with this effect, such that the costs associated with ipsilateral invalidly cued targets were substantially reduced. These results suggest that the eye-movement system is needed for normal auditory attention.
自愿的眼球运动和隐蔽的视觉注意力转移激活相同的大脑区域。具体来说,顶内沟和额眼区(FEF)似乎既参与产生自愿眼球运动,也参与关注外围空间位置。此外,这些区域似乎是这两个任务所必需的——这些区域的功能障碍会损害这两个任务。因此,似乎允许我们计划眼球运动的目标系统与允许我们隐蔽地跟踪外围视觉信息的系统相同。最近的神经影像学研究表明,当参与者参与听觉空间注意力任务时,这些大脑区域也会被激活。然而,这些区域是否是这些任务所必需的仍然不清楚。我们使用重复经颅磁刺激(rTMS)来破坏 FEF,同时参与者执行听觉定位任务。在每次试验中,一个视觉提示将注意力引导到听觉目标的可能侧面,参与者决定随后的目标声音来自上扬声器还是下扬声器。在没有 TMS 的情况下,个体对提示侧(有效试验)出现的目标的反应速度比目标出现在提示侧对侧(无效侧)时更快。TMS 干扰了这种效应,使得与同侧无效提示目标相关的成本大大降低。这些结果表明,眼球运动系统是正常听觉注意力所必需的。