Study of physiology of visual cortex activated by rotating grating with functional MRI
- VernacularTitle:旋转光栅视觉刺激生理成分的功能MRI研究
- Author:
Ping LIANG
;
Zhiqiang ZHANG
;
Guangming LU
;
Qing SHAO
- Publication Type:Journal Article
- Keywords:
Magnetic resonance imaging;
Photic stimulation;
Vision
- From:
Chinese Journal of Radiology
2001;0(09):-
- CountryChina
- Language:Chinese
-
Abstract:
Objective To research the physiology of visual cortex activated by rotating grating with functional-MRI(fMRI), and to identify the components of the activation. Methods Functional MRI was performed in 9 healthy volunteers by using GRE-EPI sequences on a 1.5 T MR scanner. In the block designing, rotating grating, static grating, and luminance were plotted as task states, while static grating, luminance, and darkness were set as control states. The stimuli tasks included six steps. Imaging processing and statistical analysis was carried out off-line using SPM99 in single-subject method. Results Some respective areas of visual cortex were activated by the various stimuli information supplied by rotating grating. The strong activation in the middle of occipital lobe located at primary vision area was related to the stimuli of white luminance. Its average maximum points were at 13,-98,-2 and 11, -100,-4. The bilateral activations of Brodmann 19th area located at MT area were related to visual motion perception. Its average maximum points were at 46,-72,-2 and -44,-74, 0. The mild activation in the middle of occipital lobe was related to form perception. Its average maximum points were at -12,-98,-6 and -16,-96, (-6.) Conclusion The plotting of control state is important in bock design. The effective visual information of rotating grating includes components of luminance, visual motion perception, and form perception. FMRI has potential as a tool for studying the basic physiology of visual cortex.