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Neuronal responses in the visual cortex of awake cats to stationary and moving targets (1971)

Noda, H. ; Freeman, R. B. ; Gies, B. ; [et al.]

Springer

Experimental brain research 12 (1971), S. 389-405

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ISSN: 1432-1106

Keywords: Visual cortex ; Unanesthetized and unparalyzed cats ; Neuronal responses to moving and stationary stimuli

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Over 300 single units from the visual cortex (within and around the projection of the central area) were recorded from awake and non-paralyzed cats (chronic preparation). Spontaneous activity of 25% of the neurons was below 3/sec, that of 75% above 3/sec (mean 7.65 spikes/sec). Diffuse illumination had only little influence, but nearly all neurons responded to stimulation with some sort of visual contrast. This would be either an irregularly moved shadow on the screen with irregular boundaries (e. g. a hand with moving fingers), a dark stripe moving in a certain direction, stationary parallel gratings with a certain orientation, or saccadic eye movements across a checkerboard. Although some neurons responding to one stimulus type could also be responsive to other stimuli, the majority of units only responded to one stimulus type. The responses to stationary gratings (alternating parallel dark and bright stripes) and to moving dark stripes are described in detail. Responses to stationary gratings showed no adaptation. The orientation of the grating stripes was critical for each neuron, the optimal and minimal response orientation were separated by about 90°. For movement sensitive neurons, the direction of the movement was critical. Most neurons had only one, some had two preferred directions separated by 180°. No statistically significant predominance of certain orientation or direction preferences was found. The preferred target velocity of movement sensitive neurons was between 10 and 60°/sec, above 80–100°/sec only occasional or no responses could be elicited. Neurons which responded to saccadic eye movements (above 300°/sec) in the presence of a checker board, usually did not respond to slower target movements below 100°/sec. The results support the view that the visual system has different channels for the perception of moving and of stationary objects.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00234494

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An intracellular analysis of visual cortical neurones to moving stimuli: Responses in a co-operative neuronal network (1974)

Creutzfeldt, O. D. ; Kuhnt, U. ; Benevento, L. A.

Springer

Experimental brain research 21 (1974), S. 251-274

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ISSN: 1432-1106

Keywords: Area 17 ; Orientation/direction sensitivity ; Intracellular recording ; Receptive field properties ; Intracortical inhibition

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary 1. Responses of cortical cells from the foveal and perifoveal visual field representation in area 17 to moving contrasts were analyzed with intracellular records in anesthetized cats. These intracellularly recorded responses were normal in so far as the cells showed typical orientation/direction sensitivity and only short phasic or no responses to diffuse illumination. 2. With slowly moving bright or dark bars, two types of responses were seen: those with a small excitatory peak and those with a wider excitatory peak. Inhibitory regions outside the excitatory peak were only seen in cells with a small excitatory area. Only very few cells showed inhibitory “flanks” preceding and following the excitation; often inhibition followed the excitation in both the forward and backward direction; sometimes it preceded it in both directions. The inhibition outside the excitatory zone practically always had “dynamic” properties, i.e. was smaller or larger in the two opposite directions of movements. 3. All cells showed strong inhibition (IPSP's) mixed with excitation while the stimulus moved over the excitatory response field. The degree of inhibition was clearly sensitive to the direction of movement (forward or backward) of an optimally oriented moving stimulus, and could also be different at different orientation/ directions. However, the orientation dependence of intracortical inhibition was often less clear than the differences found between the two opposite directions of an optimally oriented stimulus. Inhibition was more marked during binocular than during monocular stimulation. 4. The excitatory areas of cortical cells were mostly slightly elongated, but not systematically along the axis of optimal orientation. The diameters of the excitatory fields were similar along the optimal and the non-optimal orientation axes (mean 1.9±0.78 vs. 2.2±0.92°). 5. It is proposed that the orientation/direction sensitivity of cortical cells is a function of intracortical inhibitory connections with direction/orientation sensitivity rather than only due to the spatial arrangement of excitatory and inhibitory on- or off-center fields. A hypothetical retino-cortical projection map is proposed and it is assumed that direction/orientation sensitive intracortical inhibition is essential for the functional properties of cortical neurones.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00235746

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