Lászlò Orzó scite author profile

The space-time patterns of activity generated across arrays of retinal neurons can provide a sensitive measurement of the effects of neural interactions underlying retinal activity. We measured the excitatory and inhibitory components associated with these patterns at each cellular level in the retina and further dissected inhibitory components pharmacologically. Using perforated and loose patch recording, we measured the voltages, currents, or spiking at 91 lateral positions covering approximately 2 mm in response to a flashed 300-microm-wide bar. First, we showed how the effect of well known lateral inhibition at the outer retina, mediated by horizontal cells, evolved in time to compress the spatial representation of the stimulus bar at ON and OFF bipolar cell bodies as well as horizontal cells. Second, we showed, for the first time, how GABA(C) receptor mediated amacrine cell feedback to bipolar terminals compresses the spatial representation of the stimulus bar at ON bipolar terminals over time. Third, we showed that a third spatiotemporal compression exists at the ganglion cell layer that is mediated by feedforward amacrine cells via GABA(A) receptors. These three inhibitory mechanisms, via three different receptor types, appear to compensate for the effects of lateral diffusion of activity attributable to dendritic spread and electrical coupling between retinal neurons. As a consequence, the width of the final representation at the ganglion cell level approximates the dimensions of the original stimulus bar.

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The use of CNN models in the subcortical visual pathway

Roska

Hámori

Lábos

et al. 1993

IEEE Trans. Circuits Syst. I

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In-line color digital holographic microscope for water quality measurements

Gӧrӧcs

Orzó

Kiss

et al. 2010

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Multicolor digital holographic microscope (DHM) for biological purposes

Gӧrӧcs

Kiss

Tóth

et al. 2010

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Special multicolor illumination and numerical tilt correction in volumetric digital holographic microscopy

Kiss¹,

Nagy²,

Lakatos³

et al. 2014

Opt. Express

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Abstract:We introduce a color imaging method in our digital holographic microscope system (DHM). This DHM can create color images of freely floating, or moving objects inside a large volume by simultaneously capturing three holograms using three different illumination wavelengths. In this DHM a new light source assembly is applied, where we use single mode fibers according to the corresponding wavelengths that are tightly and randomly arranged into a small array in a single FC/PC connector. This design has significant advantages over the earlier approaches, where all the used illuminations are coupled in the same fiber. It avoids the coupling losses and provides a cost effective, compact solution for multicolor coherent illumination. We explain how to determine and correct the different fiber end positions caused tilt aberration during the hologram reconstruction process. To demonstrate the performance of the device, color hologram reconstructions are presented that can achieve at least 1 µm lateral resolution.

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Lászlò Orzó

Three Levels of Lateral Inhibition: A Space–Time Study of the Retina of the Tiger Salamander

The use of CNN models in the subcortical visual pathway

In-line color digital holographic microscope for water quality measurements

Multicolor digital holographic microscope (DHM) for biological purposes

Special multicolor illumination and numerical tilt correction in volumetric digital holographic microscopy

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