PET reveals occipitotemporal pathway activation during elementary form
perception in humans
Beason-Held, L.L., Purpura, K.P., Van Meter, J.W., Azari, N.P., Mangot,
D.J., Optican, L.M., Mentis, M.J., Alexander, G.E., Grady, C.L., Horwitz,
B., Rapoport, S.I., and Schapiro, M.B.
Visual Neuroscience 15, 503-510 (1998)
Abstract
To define brain regions involved in feature extraction or elementary form
perception, regional cerebral blood flow (rCBF) was measured using positron
emission tomography (PET) in subjects viewing two classes of achromatic
textures. Textures composed of local features
(e.g. extended contours and rectangular blocks) produced activation or
increased rCBF along the occipitotemporal pathway relative to textures
with the same mean luminance, contrast, and spatial-frequency content but
lacking organized form elements or local features. Significant activation
was observed in striate, extrastriate, lingual, and fusiform cortices as
well as the hippocampus and brain stem. On a scan-by-scan basis, increases
in rCBF shifted from the occipitotemporal visual cortices to medial temporal
(hippocampus) and frontal lobes with increased exposure to only those textures
containing local features. These results suggest that local feature extraction
occurs throughout the occipitotemporal (ventral) pathway during extended
exposure to visually salient stimuli, and may indicate the presence of
similar receptive-field mechanisms in both occipital and temporal visual
areas of the human brain.
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