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Dataset of cortical activity recorded with high spatial resolution from anesthetized rats

Summary

Here, we present an electrophysiological dataset recorded from the neocortex of twenty rats anesthetized with ketamine/xylazine. The wideband, spontaneous recordings were acquired with a single-shank silicon-based probe having 128 densely packed recording sites arranged in a 32x4 array. Using spike sorting, the activity of a total of 7126 single units was extracted from all layers of the cortex. Here, we share raw neural recordings, as well as spike times, extracellular spike waveforms and several properties of units packaged in a standardized electrophysiological data format. For technical validation of our dataset, we provide the distributions of derived single unit properties along with various spike sorting quality metrics.

Downloading the dataset

Recordings can be downloaded individually through the web interface. Or from the commandline:

wget https://gin.g-node.org

Alternatively, you may clone the repository to your local machine, which will also include the dataset: git clone https://gin.g-node.org/

For more ways of accessing the data, please refer to GIN's FAQ.

Repository structure

Each recording and corresponding metadata, single unit properties and quality metrics were packaged in the Neurodata Without Borders: Neurophysiology version 2.0 (NWB:N 2.0) data format using the MatNWB API. A single NWB file was created from each recording. NWB files were placed in folders based on the identifier of the animal (from Rat01 to Rat20), insertion sequence (Insertion1 or Insertion2) and cortical depth (from Depth1 to Depth3). The filename of the NWB file (identifier) was constructed by concatenating the above information (e.g., Rat01_Insertion2_Depth3).

NWB file structure

The NWB file contains several main groups which are similar to directories. The acquisition group contains the continuous wideband 128-channel data (‘wideband_multichannel_recording’) in a compressed form, as well as several parameters related to the raw data such as the measurement unit or the data conversion number. The general group contains metadata about the experiments and consists of several subgroups, related to the recording probe (‘general/devices’; ‘general/extracellular_ephys’) or the subjects of the experiments (‘general/subject’). Former subgroups carry information about the probe location (brain area and stereotaxic coordinates) and the relative positions and laminar location of recordings sites, while the latter contains metadata about the animal (e.g., sex, species, subject ID, or weight). Information about spike sorting and single units and corresponding data are available in the units group. For each unit, we included here the mean and standard deviation of their spike waveform on all channels, calculated both from the filtered (‘mean_waveform_all_channels_filt’; ’waveform_sd_all_channels_filt’) and the wideband data (‘mean_waveform_all_channels_raw’; ’ waveform_sd_all_channels_raw’). For an easier visualization of the spike waveform in two dimensions, we have also added an array which contains the mean spike waveform in the 32 x 4 shape of the array (‘mean_waveform_all_channels_filt_32x4’; ’mean_waveform_all_channels_raw_32x4’). Furthermore, the spike waveform recorded on the channel with the largest spike (i.e., peak waveform channel) was saved separately (‘mean_waveform_peak_channel_filt’, ‘mean_waveform_peak_channel_raw’). Several single unit properties and cluster quality metrics, as well as the spike times and spike count of each unit were saved in the units group. Furthermore, to aid users in selecting and analyzing a subset of this dataset appropriate for the research goals, we also created an NWB file (‘allSingleUnits.nwb’) which contains all single unit with all the properties listed above, along with the identifier of the recording they originate from (‘units/session_id’).

Related Publications

Fiáth, R., Raducanu, B. C., Musa, S., Andrei, A., Lopez, C. M., van Hoof, C., Ruther, P., Aarts, A., Horváth, D., Ulbert, I. (2018) A silicon-based neural probe with densely-packed low-impedance titanium nitride microelectrodes for ultrahigh-resolution in vivo recordings. Biosensors and Bioelectronics 106: 86-92. https://doi.org/10.1016/j.bios.2018.01.060

Licensing

The dataset is licensed under a Creative Commons Attribution 4.0 International License.

See the LICENSE file for the full license.

datacite.yml
Title	Dataset of cortical activity recorded with high spatial resolution from anesthetized rats
Authors	Horváth,Csaba;Institute of Cognitive Neuroscience and Psychology, Research Centre for Natural Sciences, Eötvös Loránd Research Network, Budapest, Hungary;ORCID:0000-0001-8176-8975 Tóth,Lili Fanni;Faculty of Information Technology and Bionics, Pázmány Péter Catholic University, Budapest, Hungary Ulbert,István;Institute of Cognitive Neuroscience and Psychology, Research Centre for Natural Sciences, Eötvös Loránd Research Network, Budapest, Hungary and Faculty of Information Technology and Bionics, Pázmány Péter Catholic University, Budapest, Hungary;ORCID:0000-0001-9941-9159 Fiáth,Richárd;Institute of Cognitive Neuroscience and Psychology, Research Centre for Natural Sciences, Eötvös Loránd Research Network, Budapest, Hungary and Faculty of Information Technology and Bionics, Pázmány Péter Catholic University, Budapest, Hungary;ORCID:0000-0001-8732-2691
Description	Publicly available neural recordings obtained with high spatial resolution are scarce. Here, we present an electrophysiological dataset recorded from the neocortex of twenty rats anesthetized with ketamine/xylazine. The wideband, spontaneous recordings were acquired with a single-shank silicon-based probe having 128 densely packed recording sites arranged in a 32x4 array. Using spike sorting, the activity of a total of 7126 single units was extracted from all layers of the cortex. Here, we share raw neural recordings, as well as spike times, extracellular spike waveforms and several properties of units packaged in a standardized electrophysiological data format. For technical validation of our dataset, we provide the distributions of derived single unit properties along with various spike sorting quality metrics.
License	CC-BY (http://creativecommons.org/licenses/by/4.0/)
References	Fiáth, R., Raducanu, B. C., Musa, S., Andrei, A., Lopez, C. M., van Hoof, C., Ruther, P., Aarts, A., Horváth, D., Ulbert, I. (2018) A silicon-based neural probe with densely-packed low-impedance titanium nitride microelectrodes for ultrahigh-resolution in vivo recordings. Biosensors and Bioelectronics 106: 86-92. [doi:10.1016/j.bios.2018.01.060] (IsDescribedBy)
Funding	Hungarian Brain Research Program; 2017-1.2.1-NKP-2017-00002 Hungarian National Research, Development and Innovation Office; PD124175 Hungarian National Research, Development and Innovation Office; PD134196 Hungarian National Research, Development and Innovation Office; TUDFO/51757-1/2019-ITM
Keywords	Neuroscience Silicon probe High density recording High spatial resolution Electrophysiology Neurophysiology Neural recording Extracellular action potential Single unit activity Spike sorting Slow oscillation Slow wave activity Rat Ketamine/xylazine anesthesia Neocortex
Resource Type	Dataset

README.md