Retinotopic organization of human visual cortex mapped with positron-emission tomography

Creators: Fox, Peter T.; Miezin, Francis M.; Allman, John M.; Van Essen, David C.; Raichle, Marcus E.

Abstract

The retinotopic organization of primary visual cortex was mapped in normal human volunteers. Positron-emission tomographic measurements of regional cerebral blood flow were employed to detect focal functional brain activation. Oxygen-15-labeled water, delivered by intravenous bolus, was used as the blood flow tracer to allow multiple stimulated- state (n = 5) and control-state (n = 3) measurements to be acquired for each of 7 subjects. Responses were identified by applying a maximum- detection algorithm to subtraction-format images of the stimulus- induced change in cerebral blood flow. Response locales were described using a standardized system of stereotactic coordinates. Changes in stimulus location (macular, perimacular, peripheral, upper-field, lower- field) caused systematic, highly significant changes in response locale within visual cortex. Discrete extrastriate visual responses were also observed.

Additional Information

© 1987 the Society for Neuroscience. Received June 3, 1986; revised Aug. 25, 1986; accepted Sept. 13, 1986. We thank Lennis Lich and Thomas Hurley for expert technical assistance and Thomas Videen for programming the computer-generated stimuli. This work was supported by NIH Grants NS-06833, HL-13851, NS-07025, NS-0094 (Teacher Investigator Development Award, to P.T.F.), EY03851, and RR-07003, and by a grant from the John Norris Curry Gordon and Jessie Kennicott Gordon Trust.

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