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We present a significant extension of the Brain Imaging Data Structure (BIDS) to support the specific aspects of magnetoencephalography (MEG) data. MEG measures brain activity with millisecond temporal resolution and unique source imaging capabilities. So far, BIDS was a solution to organise magnetic resonance imaging (MRI) data. The nature and acquisition parameters of MRI and MEG data are strongly dissimilar. Although there is no standard data format for MEG, we propose MEG-BIDS as a principled solution to store, organise, process and share the multidimensional data volumes produced by the modality. The standard also includes well-defined metadata, to facilitate future data harmonisation and sharing efforts. This responds to unmet needs from the multimodal neuroimaging community and paves the way to further integration of other techniques in electrophysiology. MEG-BIDS builds on MRI-BIDS, extending BIDS to a multimodal data structure. We feature several data-analytics software that have adopted MEG-BIDS, and a diverse sample of open MEG-BIDS data resources available to everyone.

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MNE-BIDS: Organizing electrophysiological data into the BIDS format and facilitating their analysis

Appelhoff¹,

Sanderson²,

Brooks³

et al. 2019

JOSS

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Evidence for morphological composition in compound words using MEG

Brooks

Garcia

2015

Front. Hum. Neurosci.

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Psycholinguistic and electrophysiological studies of lexical processing show convergent evidence for morpheme-based lexical access for morphologically complex words that involves early decomposition into their constituent morphemes followed by some combinatorial operation. Considering that both semantically transparent (e.g., sailboat) and semantically opaque (e.g., bootleg) compounds undergo morphological decomposition during the earlier stages of lexical processing, subsequent combinatorial operations should account for the difference in the contribution of the constituent morphemes to the meaning of these different word types. In this study we use magnetoencephalography (MEG) to pinpoint the neural bases of this combinatorial stage in English compound word recognition. MEG data were acquired while participants performed a word naming task in which three word types, transparent compounds (e.g., roadside), opaque compounds (e.g., butterfly), and morphologically simple words (e.g., brothel) were contrasted in a partial-repetition priming paradigm where the word of interest was primed by one of its constituent morphemes. Analysis of onset latency revealed shorter latencies to name compound words than simplex words when primed, further supporting a stage of morphological decomposition in lexical access. An analysis of the associated MEG activity uncovered a region of interest implicated in morphological composition, the Left Anterior Temporal Lobe (LATL). Only transparent compounds showed increased activity in this area from 250 to 470 ms. Previous studies using sentences and phrases have highlighted the role of LATL in performing computations for basic combinatorial operations. Results are in tune with decomposition models for morpheme accessibility early in processing and suggest that semantics play a role in combining the meanings of morphemes when their composition is transparent to the overall word meaning.

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Eelbrain 0.32

Brodbeck¹,

Brooks²,

Das³

et al. 2020

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christianbrodbeck/Eelbrain: 0.30

Brodbeck¹,

Brooks²,

Das³

et al. 2019

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Eelbrain 0.31

Brodbeck¹,

Das²,

Brooks³

et al. 2019

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MEG-BIDS: an extension to the Brain Imaging Data Structure for magnetoencephalography

Niso

Gorgolewski

Bock

et al. 2017

Preprint

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We present a significant extension of the Brain Imaging Data Structure (BIDS) to support the specific aspects of magnetoencephalography (MEG) data. MEG provides direct measurement of brain activity with millisecond temporal resolution and unique source imaging capabilities. So far, BIDS has provided a solution to structure the organization of magnetic resonance imaging (MRI) data, which nature and acquisition parameters are different. Despite the lack of standard data format for MEG, MEG-BIDS is a principled solution to store, organize and share the typically-large data volumes produced. It builds on BIDS for MRI, and therefore readily yields a multimodal data organization by construction. This is particularly valuable for the anatomical and functional registration of MEG source imaging with MRI. With MEG-BIDS and a growing range of software adopting the standard, the MEG community has a solution to minimize curation overheads, reduce data handling errors and optimize usage of computational resources for analytics. The standard also includes well-defined metadata, to facilitate future data harmonization and sharing efforts.

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Mne-Tools/Mne-Python: V0.15

Larson¹,

Gramfort²,

Engemann³

et al. 2017

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Teon L Brooks

MEG-BIDS, the brain imaging data structure extended to magnetoencephalography

MNE-BIDS: Organizing electrophysiological data into the BIDS format and facilitating their analysis

Evidence for morphological composition in compound words using MEG

Eelbrain 0.32

christianbrodbeck/Eelbrain: 0.30

Eelbrain 0.31

MEG-BIDS: an extension to the Brain Imaging Data Structure for magnetoencephalography

Mne-Tools/Mne-Python: V0.15

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