Matej Znidaric

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Znidaric

First Name

Matej

ORCID

0000-0001-5010-6776

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Publications 1 - 10 of 10

Impedance Measurements and Electrophysiological Recordings of Mouse Retinae on a Multifunctional HD-MEA Platform
Ulusan, Hasan; Diggelmann, Roland; Magnan, Chloé; et al. (2022)
MEA Meeting 2022 Abstract Book
Propagation speeds of action potentials in the human retina compensate for traveling distances
Bucci, Annalisa; Diggelmann, Roland; Znidaric, Matej; et al. (2022)
Axonal pathways and propagation speeds in the human retinal nerve fiber layer. Does speed compensate for length?
Franke, Felix; Büttner, Marc; Znidaric, Matej; et al. (2024)
Investigative Ophthalmology & Visual Science
Large field-of-view HD-MEA setup for ex vivo mouse retina electrophysiological recordings
Znidaric, Matej; Diggelmann, Roland; Hierlemann, Andreas; et al. (2019)
Conference Abstract: MEA Meeting 2018 | 11th International Meeting on Substrate Integrated Microelectrode Arrays
Propagation speeds of action potentials in the human retina compensate for traveling distances
Bucci, Annalisa; Diggelmann, Roland; Znidaric, Matej; et al. (2022)
Improved receptive-field characterization of retinal ganglion cells using a large field-of-view light stimuli
Diggelmann, Roland; Znidaric, Matej; Bucci, Annalisa; et al. (2019)
Neuroscience 2019 Abstracts
Ex vivo mouse retinal recordings using HD-MEA systems: From characterizing single cells to analyzing populations
Znidaric, Matej; Diggelmann, Roland; Bucci, Annalisa; et al. (2019)
Retinal ganglion cells in the human retina synchronize action potential arrival times at the optic disc
Bucci, Annalisa; Buettner, M.; Domdei, Niklas; et al. (2023)
2023 Neuroscience Meeting Planner
How the coupling strength of horizontal cells effects the retinal processing of spatio-temporal light stimuli - Model and experiments
Bucci, Annalisa; Diggelmann, Roland; Znidaric, Matej; et al. (2019)
Synchronization of visual perception within the human fovea
Bucci, Annalisa; Büttner, Marc; Domdei, Niklas; et al. (2025)
Nature Neuroscience
The human brain constructs a model of the world by processing sensory signals with distinct temporal characteristics that may differ in generation and transmission speed within a single sensory modality. To perceive simultaneous events as occurring at the same time, the brain must synchronize this sensory information, yet the mechanisms underlying such synchronization remain unclear. By combining human neural recordings, behavioral measurements and modeling, we show that in the human visual system, this process begins in the fovea centralis, the retinal region used for reading and recognizing faces. Reaction times to foveal single-cone photostimulation were similar across the central visual field, although visual information from neighboring foveal cones travels along axons of highly different lengths. From direct measurements of action potential propagation speeds, axon diameters and lengths in the human fovea centralis, we found that longer foveal axons have larger diameters and increased propagation speeds. We conclude that the human brain orchestrates axonal conduction speeds of unmyelinated axons in the retina to synchronize the arrival times of sensory signals. These results suggest a previously unknown mechanism by which the human brain synchronizes perception.

Publications 1 - 10 of 10

Matej Znidaric

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