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The spatial organisation of the excitatory region of receptive fields in the cat's superior colliculus (1973)

Hoffmann, Klaus-Peter ; Dreher, Bogdan

Springer

Experimental brain research 16 (1973), S. 354-370

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ISSN: 1432-1106

Keywords: Receptive field organisation ; Stimulus specificity ; Cat's superior colliculus

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary 1. The spatial organisation of the excitatory regions of 54 receptive fields from cells in the cat's superior colliculus was studied. Rectangular light bars, dark bars and single contrast borders were used as stimuli. Average response histograms were compiled of the spike discharges elicited from collicular units by these stimuli. 2. A cell would normally respond to the light edge as well as to the dark edge of a stimulus crossing its receptive field. It was possible to describe for a particular unit and a particular direction of stimulus movement the area within the excitatory region of the receptive field responsive to each edge of the rectangular stimuli. In a particular field, these areas were either superimposed (32 units) or spatially separated from one another (22 units). 3. In the receptive fields in which the areas responsive to different edges of a stimulus were spatially offset for stimulus movement in one direction, they also were offset for all other directions of stimulus movement. The direction of this offset changed characteristically with the direction of stimulus movement, revealing a radial symmetry in the organisation of the excitatory region of the receptive field. 4. For units with offset edge-responsive areas, this offset determined the width and contrast of the optimal stimulus for the unit. 5. Receptive fields with superimposed edge-responsive areas are also radially symmetric. The optimal stimuli for units with these receptive fields are either narrow dark slits or narrow light slits. 6. The significance of these properties of collicular cells for coding the position, size and contrast of fast moving stimuli is discussed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00233428

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Binocular interactions and disparity coding in area 21a of cat extrastriate visual cortex (1996)

Wang, Chun ; Dreher, Bogdan

Springer

Experimental brain research 108 (1996), S. 257-272

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ISSN: 1432-1106

Keywords: Binocular positional disparities ; Orientation selectivity ; Binocular summation and facilitation ; Depth discrimination ; Cat

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract We have examined, using both qualitative and quantitative techniques, binocular interactions of extracellularly recorded single neurons in the extrastriate cortical area 21a of anaesthetized and paralysed cats. Consistent with previous reports we have found that: (a) all area 21a neurons were orientation-selective, with about 65% of them preferring orientations within 30° of the vertical; and (b) over 75% of area 21a cells could be activated through either eye. Furthermore, a significant minority (4 cells; about 10%) of a subpopulation of 39 neurons in which binocular interactions were examined quantitatively, were “obligatory binocular neurons”, that is, they responded very weakly, if at all, to the monocular stimuli presented through either eye but responded vigorously to simultaneous stimulation through both eyes. Almost 70% (27/39) of neurons tested quantitatively for binocular interaction have shown significant modulation (over 50%) of their peak responses in relation to binocular positional retinal disparities. The majority of neurons sensitive to binocular positional disparities resembled either “tuned excitatory” (22 cells; 56.5% of the sample) or “tuned inhibitory” (2 cells; 5% of our sample) cells. In particular, they gave, respectively, maximal or minimal responses to optimally oriented, moving photic stimuli when the receptive fields plotted through each eye completely or partially overlapped. Although neurons recorded in area 21a have relatively large receptive fields (mean width 3.3±1.1°; range 2.0–5.6°), the mean width of the disparity tuning curve (2.8±1.0°; range 1.3–4.8°) for our sample of area 21a neurons was similar to those of neurons with significantly smaller receptive fields, recorded in areas 17 and 18 of cat's primary visual cortex. We conclude that area 21a of the cat, like areas 17 and 18 of primary visual cortex, is likely to play an important role in binocular depth discrimination and might constitute a “higher order” area for stereoscopic binocular vision.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00228099

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Properties of excitatory and inhibitory regions in the receptive fields of single units in the cat's superior colliculus (1973)

Dreher, Bogdan ; Hoffmann, Klaus-Peter

Springer

Experimental brain research 16 (1973), S. 333-353

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ISSN: 1432-1106

Keywords: Superior colliculus ; Single units ; Receptive field organization ; Speed preferences ; Direction selectivity

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary 1. The receptive field properties of single units in the cat superior colliculus have been analyzed quantitatively from average response histograms of the activity elicited in these units by moving light slits. 2. The majority of receptive fields, when tested with narrow (less than 0.5° wide) moving stimuli, have a single excitatory region. In the minority of the receptive fields, two or more spatially separated excitatory regions could be differentiated. Each excitatory region usually had an elliptical or rectangular shape with its major axis parallel or nearly parallel to the horizontal meridian of the visual field. A small proportion (1%) of the receptive fields had only inhibitory regions. 3. A majority of collicular units showed preferences for a particular speed of stimulus motion. Cells with preferences for slow (〈15°/sec) and medium (30° to 60°/sec) velocities had much more specific stimulus requirements than cells with preferences for fast velocities (〉100°/sec). There was also a positive correlation between the speed preference of a unit and the size of the excitatory region of its receptive field. 4. A high proportion of cells had little (〈1 spike/sec) spontaneous activity. Of units with high spontaneous activity, a majority had large excitatory regions in their receptive fields and did not show direction selectivity. 5. In addition to the excitatory regions in most receptive fields, there were also inhibitory regions. Stimulation of the latter suppressed both the excitatory response and background firing of the cell. The inhibition and excitation had the same latency, but inhibition lasted at least 150 msec after discontinuation of stimulation, thus reducing responsiveness of the cell after the stimulation. 6. It was found that the majority of collicular units possess a preference for stimulus movements away from the area centralis. 7. Evidence is presented supporting the view that direction selectivity in collicular units is principally determined by unidirectional inhibition. 8. Implications of these results for the mechanism determining receptive field organization in the colliculus are discussed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00233427

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