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Journal Abstract Search


1069 related items for PubMed ID: 15907304

  • 1. The activation of attentional networks.
    Fan J, McCandliss BD, Fossella J, Flombaum JI, Posner MI.
    Neuroimage; 2005 Jun; 26(2):471-9. PubMed ID: 15907304
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  • 2. Control networks and hemispheric asymmetries in parietal cortex during attentional orienting in different spatial reference frames.
    Wilson KD, Woldorff MG, Mangun GR.
    Neuroimage; 2005 Apr 15; 25(3):668-83. PubMed ID: 15808968
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  • 4. Diurnal patterns of activity of the orienting and executive attention neuronal networks in subjects performing a Stroop-like task: a functional magnetic resonance imaging study.
    Marek T, Fafrowicz M, Golonka K, Mojsa-Kaja J, Oginska H, Tucholska K, Urbanik A, Beldzik E, Domagalik A.
    Chronobiol Int; 2010 Jul 15; 27(5):945-58. PubMed ID: 20636208
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  • 5. Right temporal-parietal junction engagement during spatial reorienting does not depend on strategic attention control.
    Natale E, Marzi CA, Macaluso E.
    Neuropsychologia; 2010 Mar 15; 48(4):1160-4. PubMed ID: 19932706
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  • 6. Development of attentional networks: an fMRI study with children and adults.
    Konrad K, Neufang S, Thiel CM, Specht K, Hanisch C, Fan J, Herpertz-Dahlmann B, Fink GR.
    Neuroimage; 2005 Nov 01; 28(2):429-39. PubMed ID: 16122945
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  • 8. Neural mechanisms of visual attention: object-based selection of a region in space.
    Arrington CM, Carr TH, Mayer AR, Rao SM.
    J Cogn Neurosci; 2000 Nov 01; 12 Suppl 2():106-17. PubMed ID: 11506651
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  • 10. Development of attentional networks in childhood.
    Rueda MR, Fan J, McCandliss BD, Halparin JD, Gruber DB, Lercari LP, Posner MI.
    Neuropsychologia; 2004 Nov 01; 42(8):1029-40. PubMed ID: 15093142
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  • 11. Neural networks of response shifting: influence of task speed and stimulus material.
    Loose R, Kaufmann C, Tucha O, Auer DP, Lange KW.
    Brain Res; 2006 May 23; 1090(1):146-55. PubMed ID: 16643867
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  • 12. On the neural basis of focused and divided attention.
    Nebel K, Wiese H, Stude P, de Greiff A, Diener HC, Keidel M.
    Brain Res Cogn Brain Res; 2005 Dec 23; 25(3):760-76. PubMed ID: 16337110
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  • 13. Automatic attention orienting by social and symbolic cues activates different neural networks: an fMRI study.
    Hietanen JK, Nummenmaa L, Nyman MJ, Parkkola R, Hämäläinen H.
    Neuroimage; 2006 Oct 15; 33(1):406-13. PubMed ID: 16949306
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  • 14. Testing the efficiency and independence of attentional networks.
    Fan J, McCandliss BD, Sommer T, Raz A, Posner MI.
    J Cogn Neurosci; 2002 Apr 01; 14(3):340-7. PubMed ID: 11970796
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  • 16. The cognitive control network: Integrated cortical regions with dissociable functions.
    Cole MW, Schneider W.
    Neuroimage; 2007 Aug 01; 37(1):343-60. PubMed ID: 17553704
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  • 17. Dysfunctional attentional networks in children with attention deficit/hyperactivity disorder: evidence from an event-related functional magnetic resonance imaging study.
    Konrad K, Neufang S, Hanisch C, Fink GR, Herpertz-Dahlmann B.
    Biol Psychiatry; 2006 Apr 01; 59(7):643-51. PubMed ID: 16197925
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  • 18. Heterogeneity of cingulate contributions to spatial attention.
    Mesulam MM, Nobre AC, Kim YH, Parrish TB, Gitelman DR.
    Neuroimage; 2001 Jun 01; 13(6 Pt 1):1065-72. PubMed ID: 11352612
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  • 19. Right hemisphere dominance for auditory attention and its modulation by eye position: an event related fMRI study.
    Petit L, Simon G, Joliot M, Andersson F, Bertin T, Zago L, Mellet E, Tzourio-Mazoyer N.
    Restor Neurol Neurosci; 2007 Jun 01; 25(3-4):211-25. PubMed ID: 17943000
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  • 20. The impact of passive hyperthermia on human attention networks: an fMRI study.
    Liu K, Sun G, Li B, Jiang Q, Yang X, Li M, Li L, Qian S, Zhao L, Zhou Z, von Deneen KM, Liu Y.
    Behav Brain Res; 2013 Apr 15; 243():220-30. PubMed ID: 23333840
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