Abstract

Noninvasive magnetic recordings of human brain activity are combined with anatomical MRI and mathematical models for electromagnetic source estimation to investigate the locations and arrangement of multiple visual areas in human cortex and to probe their functional characteristics. Results obtained during the preceding project period suggest that selective manipulation of visual stimulus properties (e.g., color and luminance) can preferentially activate sources in humans consistent with the """"""""ventral"""""""" versus """"""""dorsal"""""""" processing streams identified in non- human primates (Ungerleider and Mishkin, 1982). These results have been interpreted within a framework of the specific receptive field properties associated with these two streams. Regions of activation evoked by isoluminant chromatic stimuli were localized to lateral lingual and fusiform gyri; in nonhuman primate studies, the fusiform gyrus has been shown to contain extensive representations of the central visual field and to be preferentially sensitive to color. The present application extends previous work by focusing on activity associated with the dorsal stream of processing, which subserves spatial vision. Peripheral field locations will be assessed by presenting small circular sinusoid stimuli (""""""""bulls-eye"""""""" patterns) to 3 eccentricities in the upper/lower and left/right visual fields. Automated source localization procedures will be applied to these neuromagnetic measures to identify and localize the structures responsive to these stimuli. Functional characterization of structures in the dorsal stream will be assessed by: 1) manipulating the temporal frequencies of alternation between white/gray bands comprising the circular sinusoids and 2) by manipulating the speed at which red/green and gray/white bands appear to move in an outward direction (expanding motion). In some conditions, the perception of motion will be """"""""nulled"""""""" by adjusting the intensity of the red/green bands to equalize perceptual luminance. The long term goal of this project is the delineation of specific information processing pathways in the human brain. The methods and knowledge achieved through functional characterization of the different visual areas will ultimately aid in better understanding of higher cognitive functions.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Eye Institute (NEI)
Type
Research Project (R01)
Project #
5R01EY008610-09
Application #
2711026
Study Section
Clinical Neuroscience and Biological Psychopathology Review Committee (CNBP)
Project Start
1991-03-01
Project End
2000-08-31
Budget Start
1998-09-01
Budget End
1999-08-31
Support Year
9
Fiscal Year
1998
Total Cost
Indirect Cost

  Institution

Name
University of New Mexico
Department
Radiation-Diagnostic/Oncology
Type
Schools of Medicine
DUNS #
829868723
City
Albuquerque
State
NM
Country
United States
Zip Code
87131

  Publications

Stephen, Julia M; Ranken, Doug F; Aine, Cheryl J (2006) Frequency-following and connectivity of different visual areas in response to contrast-reversal stimulation. Brain Topogr 18:257-72
Huang, M; Davis, L E; Aine, C et al. (2004) MEG response to median nerve stimulation correlates with recovery of sensory and motor function after stroke. Clin Neurophysiol 115:820-33
Aine, C J; Stephen, J M; Christner, R et al. (2003) Task relevance enhances early transient and late slow-wave activity of distributed cortical sources. J Comput Neurosci 15:203-21
Huang, M X; Aine, C; Davis, L et al. (2000) Sources on the anterior and posterior banks of the central sulcus identified from magnetic somatosensory evoked responses using multistart spatio-temporal localization. Hum Brain Mapp 11:59-76
Aine, C; Huang, M; Stephen, J et al. (2000) Multistart algorithms for MEG empirical data analysis reliably characterize locations and time courses of multiple sources. Neuroimage 12:159-72
Huang, M X; Mosher, J C; Leahy, R M (1999) A sensor-weighted overlapping-sphere head model and exhaustive head model comparison for MEG. Phys Med Biol 44:423-40
Schmidt, D M; George, J S; Wood, C C (1999) Bayesian inference applied to the electromagnetic inverse problem. Hum Brain Mapp 7:195-212
Supek, S; Aine, C J; Ranken, D et al. (1999) Single vs. paired visual stimulation: superposition of early neuromagnetic responses and retinotopy in extrastriate cortex in humans. Brain Res 830:43-55
Huang, M; Aine, C J; Supek, S et al. (1998) Multi-start downhill simplex method for spatio-temporal source localization in magnetoencephalography. Electroencephalogr Clin Neurophysiol 108:32-44
Mosher, J C; Leahy, R M (1998) Recursive MUSIC: a framework for EEG and MEG source localization. IEEE Trans Biomed Eng 45:1342-54

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