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Direction selectivity of simple cells in cat striate cortex to moving light bars (1985)

Peterhans, E. ; Bishop, P. O. ; Camarda, R. M.

Springer

Experimental brain research 57 (1985), S. 512-522

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ISSN: 1432-1106

Keywords: Striate simple cells ; Direction selectivity ; Static-field plots ; Moving edge responses

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Quantitative estimates of the direction selectivities of 118 simple cells in response to moving light bars were expressed as a percentage calculated from the ratio of the response peaks: (preferred minus nonpreferred)/preferred. Virtually all simple cells were direction selective to some degree (mean direction selectivity 73.6%). Static-field plots to a stationary flashing bar were prepared from 74 of the 118 cells. Particular attention was given to the 42 cells with only two subregions in their static-field plot, one subregion responding at light on and the other at light off. It was concluded that interactive effects between subregions, whether synergistic or antagonistic, have little if any influence on the direction selective mechanism when the stimulus is a narrow light bar. Eighty two of the 118 cells were also tested with moving light and dark edges and of these 53 had response profiles with only two response peaks, one to the light edge and the other to the dark edge. Forty one of the 53 cells were each not only direction selective for both a light edge and a dark edge but also had a preferred direction for both edges that was the same as that for a light bar. Only two cells had preferred directions for both light and dark edges that were opposite to the direction preferred by the light bar. With one possible exception, every cell with two response peaks to moving edges and two subregions in the static-field plot showed a one-to-one correspondence between the ordinal sequence of the response peaks and the ordinal sequence of the subregions. Depending upon the polarity of the moving edge and the ordinal sequence of the subregions, the mean level of the direction selectivity to a moving edge was significantly below that to a narrow moving light bar. This reduction in the degree of the direction selectivity appears to be due to an interaction between the subregions leading to a reduction in the amplitude of the response in the preferred direction rather than a suppression of the direction selective mechanism that operates in the nonpreferred direction. Moving edges cause a weak interactive effect between the subregions that seems always to reduce the degree of the direction selectivity, never increasing it.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00237838

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The properties of the binocular receptive fields of lateral geniculate neurons (1971)

Sanderson, K. J. ; Bishop, P. O. ; Darian-Smith, I.

Springer

Experimental brain research 13 (1971), S. 178-207

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ISSN: 1432-1106

Keywords: Lateral geniculate nucleus ; Binocular inhibition ; Inhibitory receptive fields ; Binocular correspondence

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The majority of cells in the dorsal nucleus of the lateral geniculate body (LGNd) in the cat have two receptive fields: one for each eye. Of the cells tested for binocularity (113), only 21 (18%) were purely monocular. The remainder had receptive fields for the non-dominant eye, the great majority of which (81 or 88%) were purely inhibitory and only 11 (12%) were excitatory. Cells with receptive fields for the non-dominant eye were found in all three laminae (A, A1 and B) of the LGNd. The proportion of inhibitory receptive fields for the non-dominant eye was slightly greater when the dominant eye was ipsilateral (77%) than when it was contralateral (68%). The distribution of the binocular receptive field pairs about points of exact correspondence in the visual field had a standard deviation of about 0.9° in both horizontal and vertical directions. The properties of the inhibitory receptive fields were studied with moving slits of light and stationary flashing spots. Most of the fields were purely inhibitory and varied in size from 1.5° to 6° across. There were no specific stimulus requirements other than a change in contrast within the receptive field. The inhibitory effect was usually fairly weak, the spontaneous discharge of the neuron being inhibited much more readily than the driven discharge. The latency of the inhibition to a stationary flashing spot was about 50 msec, the inhibition was maximal about 20 msec after the onset and lasted up to about 400 msec. Binocular inhibition is not mediated by a corticogeniculate pathway from the visual areas since it survives removal of areas 17, 18 and 19 and the middle suprasylvian gyrus. It was concluded that the most likely mechanism was via interneurons whose axons cross the borders from one cell layer to another.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00234085

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Spatial organization of subregions in receptive fields of simple cells in cat striate cortex as revealed by stationary flashing bars and moving edges (1985)

Camarda, R. M. ; Peterhans, E. ; Bishop, P. O.

Springer

Experimental brain research 60 (1985), S. 136-150

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ISSN: 1432-1106

Keywords: Striate simple cells ; Static-field plots ; Receptive field subregions ; Moving edge responses

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary For each of 74 simple striate cells a quantitative analysis was made of the width dimensions and spatial arrangements of the subregions responding either at light on (ON subregion) or at light off (OFF subregion). It was concluded that every cell has at least two and no more than four subregions. Cells with two subregions (57%) were much more commonly encountered than those with three (32%) or four (11%). For most cells adjacent subregions were significantly overlapped, the region of overlap responding both at light on and at light off. In the case of cells with two subregions, the overlap averaged 32% of the overall width of the two subregions. Despite the degree of the overlap, there was, on this basis, still a large measure of discrimination between cells in the simple family and those in the B-cell and complex families. In general the receptive field profiles of cells with three and four subregions were only marginally wider than those with only two subregions. In any given receptive field, the subregions tend to be roughly equal in width so that, in cells with four subregions, the subregions are, on the average, distinctly narrower than they are in cells with only two. Hypercomplex I cells tend to have receptive fields with three and four subregions much more commonly than simple cells and these cells are encountered much more frequently in cortical cell laminae 2, 3 and 4 than in lamina 6. In lamina 6 most of the cells in the simple family have receptive fields with only two subregions. The width dimensions and spatial sequences of the response peaks to moving light and dark edges were quantitatively analyzed in response profiles prepared from 82 cells. In general, for any given receptive field, the response peaks to moving edges have a one-to-one correspondence with the subregions to a stationary flashing bar. When this is not the case, the tendency is for the number of response peaks to edges to be less than the number of subregions rather than more.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00237026

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