Domokos Meszéna scite author profile

Domokos Meszéna

2Publications

57Citation Statements Received

142Citation Statements Given

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Affiliations

Center for Neuro-Oncology, Institute of Cognitive Neuroscience and Psychology, HUN-REN Research Centre for Natural Sciences

Publications

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Why not record from every electrode with a CMOS scanning probe?

Dimitriadis

Neto

Aarts

et al. 2018

Preprint

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Neural recording devices normally require one output connection for each electrode. This constrains the number of electrodes that can be accommodated by the thin shafts of implantable probes. Sharing a single output connection between multiple electrodes relaxes this constraint and permits designs of ultra-high density neural probes.Here we report the design and in vivo validation of such a device, a complementary metal-oxidesemiconductor (CMOS) scanning probe with 1344 electrodes and 12 reference electrodes along an 8.1 mm x 100 μm x 50 μm shaft; the outcome of the European research project NeuroSeeker. This technology presented new challenges for data management and visualization, and we also report new methods addressing these challenges developed within NeuroSeeker.Scanning CMOS technology allows the fabrication of much smaller, denser electrode arrays. To help design electrode configurations for future probes, several recordings from many different brain regions were made with an ultra-dense passive probe fabricated using CMOS process. All datasets are available online.

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Revealing the distribution of transmembrane currents along the dendritic tree of a neuron from extracellular recordings

Cserpán

Meszéna

Wittner

et al. 2017

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Revealing the current source distribution along the neuronal membrane is a key step on the way to understanding neural computations; however, the experimental and theoretical tools to achieve sufficient spatiotemporal resolution for the estimation remain to be established. Here, we address this problem using extracellularly recorded potentials with arbitrarily distributed electrodes for a neuron of known morphology. We use simulations of models with varying complexity to validate the proposed method and to give recommendations for experimental applications. The method is applied to in vitro data from rat hippocampus.

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