報告題目👰🏿‍♂️： Prefrontal control of attention

報 告  人🦤：Prof. Robert Desimone, （美國科EON4院士）

Director, McGovern Institute for Brain Research

Doris and Don Berkey Professor of Neuroscience

Massachusetts Institute of Technology

報告時間🥬：3月2日（星期日）下午16：00 - 17🛳：00

報告地點：閔行校區Bio-X研究院會議室（生物藥學1號樓105）

聯  系 人🥮：李衛東 This e-mail address is being protected from spambots. You need JavaScript enabled to view it.

Robert Desimone教授，麻省理工麥戈文腦院院長、美國科EON4院士◾️、美國人文與科EON4院士🙅🏽，普林斯頓大學獲博士學位，曾任美國國立精神衛生中心研究所長🧜🏼‍♂️，為上海交大“中國超級大腦研究中心”國際顧問。在Nature🤌🏼、Science等國際雜誌發表論文140余篇，被引用2萬多次，是全球最著名的腦科學家之一。

Abstract：

The voluntary control of visual attention to behaviorally relevant stimuli is thought to involve “top-down” feedback to visual processing areas. For spatially-directed attention, one key source of top-down attention is the frontal eye fields (FEF). We have found that feedback to visual cortex from FEF causes enhanced responses to stimuli at attended locations, and leads to synchronized neural activity in the gamma frequency range between FEF and visual processing areas.  Recent evidence suggests that the pulvinar may also serve as an important relay of attentional feedback to visual cortex, and it may also serve to desynchronize cortical activity in the alpha frequency range.  The neural basis of feature, or object attention has been much more difficult to understand. One possibility is that attention to objects with particular features causes spatially directed attention to be directed to those objects, utilizing known pathways for spatial attention. Another possibility is that attention to objects or features such as faces, colors, or shapes, depends on feedback to visual cells that are selective for those features, biasing activity in favor of those stimuli. Such a mechanism would be similar to what is thought to mediate visual recall memory. We have recently found evidence for both types of mechanisms in prefrontal cortex. Neurophysiological studies show that when monkeys direct attention to an object with a particular color or shape in the visual field, responses of cells in the FEF with receptive fields containing that location become selectively potentiated. Feedback from FEF to visual cortex then serves to highlight these salient locations. To help identify sources of direct object-related feedback to visual cortex, we have tested humans in a task that requires attention to one of two spatially overlapping objects (faces and houses), precluding the use of spatial atention. Neural activity was recording using magnetoencephalography (MEG) and fMRI. In this task, we found that attention to faces of houses causes enhanced activity and synchrony with the fusiform face area or the parahippocampal place area, respectively, and these areas synchronize their activity with the inferior frontal gyrus, an area in prefrontal cortex with known object selectivity. Thus, attention to locations and objects involves different feedback mechanisms in the prefrontal cortex.