Jonathan Winawer

iEEG-BIDS, extending the Brain Imaging Data Structure specification to human intracranial electrophysiology

Description:

The Brain Imaging Data Structure (BIDS) is a community-driven specification for organizing neuroscience data and metadata with the aim to make datasets more transparent, reusable, and reproducible. Intracranial electroencephalography (iEEG) data offer a unique combination of high spatial and temporal resolution measurements of the living human brain. To improve internal (re) use and external sharing of these unique data, we present a specification for storing and sharing iEEG data: iEEG-BIDS.

Authors:

  • Christopher Holdgraf

  • Stefan Appelhoff

  • Stephan Bickel

  • Kristofer Bouchard

  • Sasha D’Ambrosio

  • Olivier David

  • Orrin Devinsky

  • Benjamin Dichter

  • Adeen Flinker

  • Brett L. Foster

  • Krzysztof J. Gorgolewski

  • Iris Groen

  • David Groppe

  • Aysegul Gunduz

  • Liberty Hamilton

  • Christopher J. Honey

  • Mainak Jas

  • Robert T. Knight

  • Jean-Philippe Lachaux

  • Jonathan C. Lau

  • Christopher Lee-Messer

  • Brian N. Lundstrom

  • Kai J. Miller

  • Jeffrey G. Ojemann

  • Robert Oostenveld

  • Natalia Petridou

  • Gio Piantoni

  • Andrea Pigorini

  • Nader Pouratian

  • Nick F. Ramsey

  • Arjen Stolk

  • Nicole C. Swann

  • François Tadel

  • Bradley Voytek

  • Brian A . Wandell

  • Jonathan Winawer

  • Kirstie Whitaker

  • Lyuba Zehl

  • Dora Hermes

Date: 2019

DOI: https://doi.org/10.1038/s41597-019-0105-7

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Human posterior parietal cortex responds to visual stimuli as early as peristriate occipital cortex

ABSTRACT

Much of what is known about the timing of visual processing in the brain is inferred from intracranial studies in monkeys, with human data limited to mainly noninvasive methods with lower spatial resolution. Here, we estimated visual onset latencies from electrocorticographic (ECoG) recordings in a patient who was implanted with 112 subdural electrodes, distributed across the posterior cortex of the right hemisphere, for presurgical evaluation of intractable epilepsy. Functional MRI prior to surgery was used to determine boundaries of visual areas. The patient was presented with images of objects from several categories. Event‐related potentials (ERPs) were calculated across all categories excluding targets, and statistically reliable onset latencies were determined, using a bootstrapping procedure over the single trial baseline activity in individual electrodes. The distribution of onset latencies broadly reflected the known hierarchy of visual areas, with the earliest cortical responses in primary visual cortex, and higher areas showing later responses. A clear exception to this pattern was a robust, statistically reliable and spatially localized, very early response, on the bank of the posterior intraparietal sulcus (IPS). The response in the IPS started nearly simultaneously with responses detected in peristriate visual areas, around 60 ms poststimulus onset. Our results support the notion of early visual processing in the posterior parietal lobe, not respecting traditional hierarchies, and give direct evidence for onset times of visual responses across the human cortex.







AUTHORS

  • Tamar I. Regev 

  • Jonathan Winawer 

  • Edden M. Gerber 

  • Robert T. Knight 

  • Leon Y. Deouell

Date: 2018

DOI: 10.1111/ejn.14164

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