Optimizing Magnetoencephalographic Imaging Estimation of Language Lateralization for Simpler Language Tasks

Magnetoencephalographic imaging (MEGI) offers a non-invasive alternative for defining preoperative language lateralization in neurosurgery patients. MEGI indeed can be used for accurate estimation of language lateralization with a complex language task - auditory verb generation. However, since lang...

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Published inFrontiers in human neuroscience Vol. 14; p. 105
Main Authors Hinkley, Leighton B. N., De Witte, Elke, Cahill-Thompson, Megan, Mizuiri, Danielle, Garrett, Coleman, Honma, Susanne, Findlay, Anne, Gorno-Tempini, Maria Luisa, Tarapore, Phiroz, Kirsch, Heidi E., Mariën, Peter, Houde, John F., Berger, Mitchel, Nagarajan, Srikantan S.
Format Journal Article
LanguageEnglish
Published Switzerland Frontiers Research Foundation 15.05.2020
Frontiers Media S.A
Subjects
Datasets
Language
language lateralization
language tasks
Lateralization
Linguistics
Magnetoencephalography
Medical imaging
MEG
Neighborhood
Neuroscience
Neurosurgery
Oscillations
Patients
Phonology
picture naming
Postcentral gyrus
Semantics
tumor patients
Verbal tasks
Wada
non-word repetition
verb generation
tumor patients
language lateralization
picture naming
MEG
Wada
language tasks
Online AccessGet full text
ISSN1662-5161
1662-5161
DOI10.3389/fnhum.2020.00105

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Abstract Magnetoencephalographic imaging (MEGI) offers a non-invasive alternative for defining preoperative language lateralization in neurosurgery patients. MEGI indeed can be used for accurate estimation of language lateralization with a complex language task - auditory verb generation. However, since language function may vary considerably in patients with focal lesions, it is important to optimize MEGI for estimation of language function with other simpler language tasks. The goal of this study was to optimize MEGI laterality analyses for two such simpler language tasks that can have compliance from those with impaired language function: a non-word repetition (NWR) task and a picture naming (PN) task. Language lateralization results for these two tasks were compared to the verb-generation (VG) task. MEGI reconstruction parameters (regions and time windows) for NWR and PN were first defined in a presurgical training cohort by benchmarking these against laterality indices for VG. Optimized time windows and regions of interest (ROIs) for NWR and PN were determined by examining oscillations in the beta band (12-30 Hz) a marker of neural activity known to be concordant with the VG laterality index (LI). For NWR, additional ROIs include areas MTG/ITG and for both NWR and PN, the postcentral gyrus was included in analyses. Optimal time windows for NWR were defined as 650-850 ms (stimulus-locked) and -350 to -150 ms (response-locked) and for PN -450 to -250 ms (response-locked). To verify the optimal parameters defined in our training cohort for NWR and PN, we examined an independent validation cohort ( = 30 for NWR, = 28 for PN) and found high concordance between VG laterality and PN laterality (82%) and between VG laterality and NWR laterality (87%). Finally, in a test cohort ( = 8) that underwent both the intracarotid amobarbital procedure (IAP) test and MEG for VG, NWR, and PN, we identified excellent concordance (100%) with IAP for VG + NWR + PN composite LI, high concordance for PN alone (87.5%), and moderate concordance for NWR alone (66.7%). These findings provide task options for non-invasive language mapping with MEGI that can be calibrated for language abilities of individual patients. Results also demonstrate that more accurate estimates can be obtained by combining laterality estimates obtained from multiple tasks. MEGI.
AbstractList Magnetoencephalographic imaging (MEGI) offers a non-invasive alternative for defining preoperative language lateralization in neurosurgery patients. MEGI indeed can be used for accurate estimation of language lateralization with a complex language task: auditory verb generation. However, since language function may vary considerably in patients with focal lesions, it is important to optimize MEGI for estimation of language function with other simpler language tasks. The goal of this study was to optimize MEGI laterality analyses for two such simpler language tasks that can have compliance from those with impaired language function: a non-word repetition (NWR) task and a picture naming (PN) task. Language lateralization results for these two tasks were compared to the verb-generation (VG) task. MEGI reconstruction parameters (regions and time windows) for NWR and PN were first defined in a presurgical training cohort by benchmarking these against laterality indices for VG. Optimized time windows and regions of interest (ROIs) for NWR and PN were determined by examining oscillations in the beta band (12-30Hz) a marker of neural activity known to be concordant with the VG laterality index (LI). For NWR, additional ROIs include areas MTG/ITG and for both NWR and PN, the postcentral gyrus was included in analyses. Optimal time windows for NWR were defined as 650ms-850ms (stimulus-locked) and -350ms to -150ms (response-locked) and for PN -450ms to -250ms (response-locked). To verify the optimal parameters defined in our training cohort for NWR and PN, we examined an independent validation cohort (n=30 for NWR, n=28 for PN) and found high concordance between VG laterality and PN laterality (82%) and between VG laterality and NWR laterality (87%). Finally, in a test cohort (n=8) that underwent both the intracarotid amobarbital procedure (IAP) test and MEG for VG,NWR and PN, we identified excellent concordance (100%) with IAP for VG+NWR+PN composite LI, high concordance for PN alone (87.5%), and moderate concordance for NWR alone (66.7%). These findings provide task options for non-invasive language mapping with MEGI that can be calibrated for language abilities of individual patients. Results also demonstrate that more accurate estimates can be obtained by combining laterality estimates obtained from multiple tasks. MEGI
Magnetoencephalographic imaging (MEGI) offers a non-invasive alternative for defining preoperative language lateralization in neurosurgery patients. MEGI indeed can be used for accurate estimation of language lateralization with a complex language task - auditory verb generation. However, since language function may vary considerably in patients with focal lesions, it is important to optimize MEGI for estimation of language function with other simpler language tasks. The goal of this study was to optimize MEGI laterality analyses for two such simpler language tasks that can have compliance from those with impaired language function: a non-word repetition (NWR) task and a picture naming (PN) task. Language lateralization results for these two tasks were compared to the verb-generation (VG) task. MEGI reconstruction parameters (regions and time windows) for NWR and PN were first defined in a presurgical training cohort by benchmarking these against laterality indices for VG. Optimized time windows and regions of interest (ROIs) for NWR and PN were determined by examining oscillations in the beta band (12-30 Hz) a marker of neural activity known to be concordant with the VG laterality index (LI). For NWR, additional ROIs include areas MTG/ITG and for both NWR and PN, the postcentral gyrus was included in analyses. Optimal time windows for NWR were defined as 650-850 ms (stimulus-locked) and -350 to -150 ms (response-locked) and for PN -450 to -250 ms (response-locked). To verify the optimal parameters defined in our training cohort for NWR and PN, we examined an independent validation cohort (n = 30 for NWR, n = 28 for PN) and found high concordance between VG laterality and PN laterality (82%) and between VG laterality and NWR laterality (87%). Finally, in a test cohort (n = 8) that underwent both the intracarotid amobarbital procedure (IAP) test and MEG for VG, NWR, and PN, we identified excellent concordance (100%) with IAP for VG + NWR + PN composite LI, high concordance for PN alone (87.5%), and moderate concordance for NWR alone (66.7%). These findings provide task options for non-invasive language mapping with MEGI that can be calibrated for language abilities of individual patients. Results also demonstrate that more accurate estimates can be obtained by combining laterality estimates obtained from multiple tasks. MEGI.Magnetoencephalographic imaging (MEGI) offers a non-invasive alternative for defining preoperative language lateralization in neurosurgery patients. MEGI indeed can be used for accurate estimation of language lateralization with a complex language task - auditory verb generation. However, since language function may vary considerably in patients with focal lesions, it is important to optimize MEGI for estimation of language function with other simpler language tasks. The goal of this study was to optimize MEGI laterality analyses for two such simpler language tasks that can have compliance from those with impaired language function: a non-word repetition (NWR) task and a picture naming (PN) task. Language lateralization results for these two tasks were compared to the verb-generation (VG) task. MEGI reconstruction parameters (regions and time windows) for NWR and PN were first defined in a presurgical training cohort by benchmarking these against laterality indices for VG. Optimized time windows and regions of interest (ROIs) for NWR and PN were determined by examining oscillations in the beta band (12-30 Hz) a marker of neural activity known to be concordant with the VG laterality index (LI). For NWR, additional ROIs include areas MTG/ITG and for both NWR and PN, the postcentral gyrus was included in analyses. Optimal time windows for NWR were defined as 650-850 ms (stimulus-locked) and -350 to -150 ms (response-locked) and for PN -450 to -250 ms (response-locked). To verify the optimal parameters defined in our training cohort for NWR and PN, we examined an independent validation cohort (n = 30 for NWR, n = 28 for PN) and found high concordance between VG laterality and PN laterality (82%) and between VG laterality and NWR laterality (87%). Finally, in a test cohort (n = 8) that underwent both the intracarotid amobarbital procedure (IAP) test and MEG for VG, NWR, and PN, we identified excellent concordance (100%) with IAP for VG + NWR + PN composite LI, high concordance for PN alone (87.5%), and moderate concordance for NWR alone (66.7%). These findings provide task options for non-invasive language mapping with MEGI that can be calibrated for language abilities of individual patients. Results also demonstrate that more accurate estimates can be obtained by combining laterality estimates obtained from multiple tasks. MEGI.
Magnetoencephalographic imaging (MEGI) offers a non-invasive alternative for defining preoperative language lateralization in neurosurgery patients. MEGI indeed can be used for accurate estimation of language lateralization with a complex language task - auditory verb generation. However, since language function may vary considerably in patients with focal lesions, it is important to optimize MEGI for estimation of language function with other simpler language tasks. The goal of this study was to optimize MEGI laterality analyses for two such simpler language tasks that can have compliance from those with impaired language function: a non-word repetition (NWR) task and a picture naming (PN) task. Language lateralization results for these two tasks were compared to the verb-generation (VG) task. MEGI reconstruction parameters (regions and time windows) for NWR and PN were first defined in a presurgical training cohort by benchmarking these against laterality indices for VG. Optimized time windows and regions of interest (ROIs) for NWR and PN were determined by examining oscillations in the beta band (12-30 Hz) a marker of neural activity known to be concordant with the VG laterality index (LI). For NWR, additional ROIs include areas MTG/ITG and for both NWR and PN, the postcentral gyrus was included in analyses. Optimal time windows for NWR were defined as 650-850 ms (stimulus-locked) and -350 to -150 ms (response-locked) and for PN -450 to -250 ms (response-locked). To verify the optimal parameters defined in our training cohort for NWR and PN, we examined an independent validation cohort ( = 30 for NWR, = 28 for PN) and found high concordance between VG laterality and PN laterality (82%) and between VG laterality and NWR laterality (87%). Finally, in a test cohort ( = 8) that underwent both the intracarotid amobarbital procedure (IAP) test and MEG for VG, NWR, and PN, we identified excellent concordance (100%) with IAP for VG + NWR + PN composite LI, high concordance for PN alone (87.5%), and moderate concordance for NWR alone (66.7%). These findings provide task options for non-invasive language mapping with MEGI that can be calibrated for language abilities of individual patients. Results also demonstrate that more accurate estimates can be obtained by combining laterality estimates obtained from multiple tasks. MEGI.
Magnetoencephalographic imaging (MEGI) offers a non-invasive alternative for defining preoperative language lateralization in neurosurgery patients. MEGI indeed can be used for accurate estimation of language lateralization with a complex language task – auditory verb generation. However, since language function may vary considerably in patients with focal lesions, it is important to optimize MEGI for estimation of language function with other simpler language tasks. The goal of this study was to optimize MEGI laterality analyses for two such simpler language tasks that can have compliance from those with impaired language function: a non-word repetition (NWR) task and a picture naming (PN) task. Language lateralization results for these two tasks were compared to the verb-generation (VG) task. MEGI reconstruction parameters (regions and time windows) for NWR and PN were first defined in a presurgical training cohort by benchmarking these against laterality indices for VG. Optimized time windows and regions of interest (ROIs) for NWR and PN were determined by examining oscillations in the beta band (12–30 Hz) a marker of neural activity known to be concordant with the VG laterality index (LI). For NWR, additional ROIs include areas MTG/ITG and for both NWR and PN, the postcentral gyrus was included in analyses. Optimal time windows for NWR were defined as 650–850 ms (stimulus-locked) and −350 to −150 ms (response-locked) and for PN −450 to −250 ms (response-locked). To verify the optimal parameters defined in our training cohort for NWR and PN, we examined an independent validation cohort (n = 30 for NWR, n = 28 for PN) and found high concordance between VG laterality and PN laterality (82%) and between VG laterality and NWR laterality (87%). Finally, in a test cohort (n = 8) that underwent both the intracarotid amobarbital procedure (IAP) test and MEG for VG, NWR, and PN, we identified excellent concordance (100%) with IAP for VG + NWR + PN composite LI, high concordance for PN alone (87.5%), and moderate concordance for NWR alone (66.7%). These findings provide task options for non-invasive language mapping with MEGI that can be calibrated for language abilities of individual patients. Results also demonstrate that more accurate estimates can be obtained by combining laterality estimates obtained from multiple tasks. MEGI
Author Hinkley, Leighton B. N.
Nagarajan, Srikantan S.
Houde, John F.
Tarapore, Phiroz
De Witte, Elke
Cahill-Thompson, Megan
Mariën, Peter
Berger, Mitchel
Mizuiri, Danielle
Gorno-Tempini, Maria Luisa
Honma, Susanne
Kirsch, Heidi E.
Findlay, Anne
Garrett, Coleman
AuthorAffiliation 2 Department of Neurological Surgery, University of California, San Francisco , San Francisco, CA , United States
3 Department of Neurology, University of California, San Francisco , San Francisco, CA , United States
4 Memory and Aging Center, University of California, San Francisco , San Francisco, CA , United States
5 Department of Neurology, Ziekenhuis Netwerk Antwerpen , Antwerp , Belguim
6 Department of Otolaryngology; University of California, San Francisco , San Francisco, CA , United States
1 Department of Radiology and Biomedical Imaging, University of California, San Francisco , San Francisco, CA , United States
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BackLink https://www.ncbi.nlm.nih.gov/pubmed/32499685$$D View this record in MEDLINE/PubMed
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Copyright Copyright © 2020 Hinkley, De Witte, Cahill-Thompson, Mizuiri, Garrett, Honma, Findlay, Gorno-Tempini, Tarapore, Kirsch, Mariën, Houde, Berger and Nagarajan.
2020. This work is licensed under http://creativecommons.org/licenses/by/4.0/ (the “License”). Notwithstanding the ProQuest Terms and Conditions, you may use this content in accordance with the terms of the License.
Copyright © 2020 Hinkley, De Witte, Cahill-Thompson, Mizuiri, Garrett, Honma, Findlay, Gorno-Tempini, Tarapore, Kirsch, Mariën, Houde, Berger and Nagarajan. 2020 Hinkley, De Witte, Cahill-Thompson, Mizuiri, Garrett, Honma, Findlay, Gorno-Tempini, Tarapore, Kirsch, Mariën, Houde, Berger and Nagarajan
Copyright_xml – notice: Copyright © 2020 Hinkley, De Witte, Cahill-Thompson, Mizuiri, Garrett, Honma, Findlay, Gorno-Tempini, Tarapore, Kirsch, Mariën, Houde, Berger and Nagarajan.
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– notice: Copyright © 2020 Hinkley, De Witte, Cahill-Thompson, Mizuiri, Garrett, Honma, Findlay, Gorno-Tempini, Tarapore, Kirsch, Mariën, Houde, Berger and Nagarajan. 2020 Hinkley, De Witte, Cahill-Thompson, Mizuiri, Garrett, Honma, Findlay, Gorno-Tempini, Tarapore, Kirsch, Mariën, Houde, Berger and Nagarajan
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Keywords non-word repetition
verb generation
tumor patients
language lateralization
picture naming
MEG
Wada
language tasks
Language English
License Copyright © 2020 Hinkley, De Witte, Cahill-Thompson, Mizuiri, Garrett, Honma, Findlay, Gorno-Tempini, Tarapore, Kirsch, Mariën, Houde, Berger and Nagarajan.
This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.
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These authors have contributed equally to this work
This article was submitted to Speech and Language, a section of the journal Frontiers in Human Neuroscience
Reviewed by: Monica Baciu, Université Grenoble Alpes, France; Annick Razafimandimby, Université de Caen Normandie, France
Edited by: Nathalie Tzourio-Mazoyer, Centre National de la Recherche Scientifique (CNRS), France
OpenAccessLink http://journals.scholarsportal.info/openUrl.xqy?doi=10.3389/fnhum.2020.00105
PMID 32499685
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PublicationTitle Frontiers in human neuroscience
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SubjectTerms Datasets
Language
language lateralization
language tasks
Lateralization
Linguistics
Magnetoencephalography
Medical imaging
MEG
Neighborhood
Neuroscience
Neurosurgery
Oscillations
Patients
Phonology
picture naming
Postcentral gyrus
Semantics
tumor patients
Verbal tasks
Wada
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