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Journal Abstract Search

201 related items for PubMed ID: 34291338

  • 1. Probing the Functional and Structural Connectivity Underlying EEG Traveling Waves.
    Qin Y, Zhang N, Chen Y, Tan Y, Yang Z, Shi Y, Luo C, Liu T, Yao D.
    Brain Topogr; 2022 Jan; 35(1):66-78. PubMed ID: 34291338
    [Abstract] [Full Text] [Related]

  • 2. EEG functional connectivity is partially predicted by underlying white matter connectivity.
    Chu CJ, Tanaka N, Diaz J, Edlow BL, Wu O, Hämäläinen M, Stufflebeam S, Cash SS, Kramer MA.
    Neuroimage; 2015 Mar; 108():23-33. PubMed ID: 25534110
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  • 3. Traveling Slow Oscillations During Sleep: A Marker of Brain Connectivity in Childhood.
    Kurth S, Riedner BA, Dean DC, O'Muircheartaigh J, Huber R, Jenni OG, Deoni SCL, LeBourgeois MK.
    Sleep; 2017 Sep 01; 40(9):. PubMed ID: 28934529
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  • 4. White Matter Connectivity Pattern Associate with Characteristics of Scalp EEG Signals.
    Gong J, Luo C, Chang X, Zhang R, Klugah-Brown B, Guo L, Xu P, Yao D.
    Brain Topogr; 2017 Nov 01; 30(6):797-809. PubMed ID: 28785973
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  • 6. Complementary contributions of concurrent EEG and fMRI connectivity for predicting structural connectivity.
    Wirsich J, Ridley B, Besson P, Jirsa V, Bénar C, Ranjeva JP, Guye M.
    Neuroimage; 2017 Nov 01; 161():251-260. PubMed ID: 28842386
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  • 7. The relationship between EEG and fMRI connectomes is reproducible across simultaneous EEG-fMRI studies from 1.5T to 7T.
    Wirsich J, Jorge J, Iannotti GR, Shamshiri EA, Grouiller F, Abreu R, Lazeyras F, Giraud AL, Gruetter R, Sadaghiani S, Vulliémoz S.
    Neuroimage; 2021 May 01; 231():117864. PubMed ID: 33592241
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  • 8. Structural and functional connectivity mapping of the human corpus callosum organization with white-matter functional networks.
    Wang P, Wang J, Tang Q, Alvarez TL, Wang Z, Kung YC, Lin CP, Chen H, Meng C, Biswal BB.
    Neuroimage; 2021 Feb 15; 227():117642. PubMed ID: 33338619
    [Abstract] [Full Text] [Related]

  • 9. Spatial-temporal-spectral EEG patterns of BOLD functional network connectivity dynamics.
    Lamoš M, Mareček R, Slavíček T, Mikl M, Rektor I, Jan J.
    J Neural Eng; 2018 Jun 15; 15(3):036025. PubMed ID: 29536946
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  • 12. Fluctuations of the EEG-fMRI correlation reflect intrinsic strength of functional connectivity in default mode network.
    Keinänen T, Rytky S, Korhonen V, Huotari N, Nikkinen J, Tervonen O, Palva JM, Kiviniemi V.
    J Neurosci Res; 2018 Oct 15; 96(10):1689-1698. PubMed ID: 29761531
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  • 14. Reconstructing Large-Scale Brain Resting-State Networks from High-Resolution EEG: Spatial and Temporal Comparisons with fMRI.
    Yuan H, Ding L, Zhu M, Zotev V, Phillips R, Bodurka J.
    Brain Connect; 2016 Mar 15; 6(2):122-35. PubMed ID: 26414793
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  • 15. Recording human electrocorticographic (ECoG) signals for neuroscientific research and real-time functional cortical mapping.
    Hill NJ, Gupta D, Brunner P, Gunduz A, Adamo MA, Ritaccio A, Schalk G.
    J Vis Exp; 2012 Jun 26; (64):. PubMed ID: 22782131
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  • 17. Frequency-dependent functional connectivity in resting state networks.
    Samogin J, Marino M, Porcaro C, Wenderoth N, Dupont P, Swinnen SP, Mantini D.
    Hum Brain Mapp; 2020 Dec 15; 41(18):5187-5198. PubMed ID: 32840936
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  • 18. An integrated TMS-EEG and MRI approach to explore the interregional connectivity of the default mode network.
    Esposito R, Bortoletto M, Zacà D, Avesani P, Miniussi C.
    Brain Struct Funct; 2022 Apr 15; 227(3):1133-1144. PubMed ID: 35119502
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