- 作者:Christian C. Ruff ; Felix Blankenburg ; Otto Bjoertomt ; Sven Bestmann ; Elliot Freeman ; John-Dylan Haynes ; Geraint Rees ; Oliver Josephs ; Ralf Deichmann ; Jon Driver
- 关键词:CELLCYCLE
- 刊名:Current Biology
- 出版年:2006
- 出版时间:8 August 2006
- 年:2006
- 卷:16
- 期:15
- 页码:1479-1488
- 全文大小:448 K
Results
FEF TMS led to activity increases for retinotopic representations of the peripheral visual field, but to activity decreases for the central field, in areas V1-V4. These frontal influences on visual cortex occurred in a top-down manner, independently of visual input. TMS of a control site (vertex) did not elicit such visual modulations, and saccades, blinks, or pupil dilation could not account for our results. Finally, the effects of FEF TMS on activity in retinotopic visual cortex led to a behavioral prediction that we confirmed psychophysically by showing that TMS of the frontal site (again compared with vertex) enhanced perceived contrast for peripheral relative to central visual stimuli.
Conclusions
Our results provide causal evidence that circuits originating in the human FEF can modulate activity in retinotopic visual cortex, in a manner that differentiates the central and peripheral visual field, with functional consequences for perception. More generally, our study illustrates how the new approach of concurrent TMS-fMRI can now reveal causal interactions between remote but interconnected areas of the human brain.