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Brain Injury Volume 29, 2015 - Issue 13-14
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Original Article

Visuospatial attention after traumatic brain injury: The role of hemispheric specialization

Tanisha G. Hill-JarrettDepartment of Clinical and Health Psychology, University of Florida, Gainesville, FL, USA,
,
Jason T. GravanoDepartment of Clinical and Health Psychology, University of Florida, Gainesville, FL, USA,
,
Christopher N. SozdaVA Northern California Health Care System, Martinez, CA, USA, and
&
William M. PerlsteinDepartment of Clinical and Health Psychology, University of Florida, Gainesville, FL, USA, ;VA RR&D Brain Rehabilitation and Research Center of Excellence, Malcom Randall VA, Gainesville, FL, USACorrespondence[email protected]
Pages 1617-1629 | Received 03 Apr 2015, Accepted 18 Jul 2015, Published online: 09 Oct 2015

References

  • Auerbach SH. Neuroanatomical correlates of attention and memory disorders in traumatic brain injury: An application of neurobehavioral subtypes. Journal of Head Trauma Rehabilitation 1986;1:1–12
  • Gronwall D. Advances in the assessment of attention and information processing after head injury. In: Levin HS, Grafman J, Eisenberg HM, editors. Neurobehavioural recovery from head injury. New York: Oxford University Press; 1987. pp 355–371
  • Whyte J, Hart T, Laborde A, Rosenthal M. Rehabilitation issues in traumatic brain injury. In: DeLisa JA, Gans BM, Bockenek WL, editors. Rehabilitation medicine: Principles and practice. 3rd ed. Pennsylvania: Lippincott Williams & Wilkins; 2004. pp 1677–1713
  • Posner MI, Fan J. Attention as an organ system. In: Pomertanz JR, Crair MC, editors. Topics in integrative neuroscience: From cells to cognition. Cambridge, UK: Cambridge University Press; 2008. pp 31–61
  • Posner MI, Peterson SE. The attention system of the human brain. Annual Review of Neuroscience 1990;13:25–42
  • Arrington CM, Carr TH, Mayer AR, Rao SM. Neural mechanisms of visual attention: Object-based selection of a region in space. Journal of Cognitive Neuroscience 2000;12:106–117
  • Corbetta M, Kincade JM, Ollinger JM, McAvoy MP, Shulman GL. Voluntary orienting is dissociated from target detection in human posterior parietal cortex. Nature Neuroscience 2000;3:292–297
  • Fox MD, Corbetta M, Snyder AZ, Vincent JL, Raichele ME. Spontaneous neuronal activity distinguishes human dorsal and ventral attention systems. Proceedings of the National Academy of Sciences 2006;103:10046–10051
  • Thiebaut de Schotten M, Dell’Acqua F, Forkel SJ, Simmons A, Vergani F, Murphy DGM, Catani M. A lateralized brain network for visuospatial attention. Nature Neuroscience 2011;14:1245–1246
  • Fan J, McCandliss BD, Sommer T, Raz A, Posner MI. Testing the efficiency and independence of attentional networks. Journal of Cognitive Neuroscience 2002;14:340–347
  • Poynter W, Ingram P, Minor S. Visual field asymmetries in attention vary with self-reported attention deficits. Brain and Cognition 2010;72:355–361
  • Redick TS, Engle RW. Working memory capacity and attention network test performance. Applied Cognitive Psychology 2006;20:713–721
  • Han Y, Zhang F, Tian Y, Hu P, Li B, Wang K. Selective impairment of attentional networks of alerting in Wilson’s disease. PLoS One 2014;9:e100454
  • Niogi SN, Mukherjee P, Ghajar J, Johnson C, Kolster RA, Sarkar R, Lee H, Meeker M, Zimmerman RD, Manley GT, et al. Extent of microstructural white matter injury in postconcussive syndrome correlates with impaired cognitive reaction time: A 3T diffusion tensor imaging study of mild traumatic brain injury. American Journal of Neuroradiology 2008;29:967–973
  • Urbanek C, Weinges-Evers N, Bellmann-Strobl J, Bock M, Dorr J, Hahn E, Neuhaus AH, Opgen-Rhein C, Ta TM, Herges K, et al. Attention network test reveals alerting network dysfunction in multiple sclerosis. Multiple Sclerosis 2010;16:93–99
  • van Donkelaar P, Langan J, Rodriguez E, Drew A, Halterman C, Osternig LR, Chou LS. Attentional deficits in concussion. Brain Injury 2005;19:1031–1039
  • Halterman CI, Langan J, Drew A, Rodgriguez E, Osternig LR, Chou L, van Donkelaar P. Tracking the recovery of visuospatial attention deficits in mild traumatic brain injury. Brain 2006;129:747–753
  • Greene DJ, Barnea A, Herzberg K, Rassis A, Neta M, Raz A, Zaidel E. Measuring attention in the hemispheres: The lateralized attention network test (LANT). Brain and Cognition 2008;66:21–31
  • Pavlovskaya M, Groswasser Z, Keren O, Mordvinov E, Hochstein S. Hemispheric visual atentional imbalance in patients with traumatic brain injury. Brain and Cognition 2007;64:21–29
  • Pavlovskaya M, Hochstein S, Keren O, Mordvinov E, Groswasser Z. Methylphenidate effect on hemispheric attentional imbalance in patients with traumatic brain injury: A psychophysical study. Brain Injury 2007;21:489–497
  • Barlow-Ogden K, Poynter W. Mild traumatic brain injury and posttraumatic stress disorder: Investigation of visual attention in Operation Iraqi Freedom/Operation Enduring Freedom veterans. Journal of Rehabilitation Research & Development 2012;49:1101–1114
  • Bryant R. Post-traumatic stress disorder vs. traumatic brain injury. Dialogues in Clinical Neuroscience 2011;13:251–262
  • Davenport ND, Lim KO, Armstrong MT, Sponheim SR. Diffuse and spatially variable white matter disruptions are associated with blast-related mild traumatic brain injury. NeuroImage 2012;59:2017–2024
  • Tanev KS, Pentel KZ, Kredlow MA, Charney ME. PTSD and TBI co-morbidity: Scope, clinical presentation, and treatment options. Brain Injury 2014;28:261–270
  • Cremona-Meteyard SL, Clark CR, Wright MJ, Geffen GM. Covert orientation of visual attention after closed head injury. Neuropsychologia 1992;30:123–132
  • Bate AJ, Mathias JL, Crawford JR. The covert orienting of visual attention following severe traumatic brain injury. Journal of Clinical and Experimental Neuropsychology 2001;23:386–398
  • Posner MI. Measuring alertness. Annals of the New York Academy of Sciences 2008;1129:193–199
  • Petersen SE, Posner MI. The attention system of the human brain: 20 years after. Annual Review of Neuroscience 2012;35:73–98
  • Fan J, McCandliss BD, Fossella J, Flombaum JI, Posner MI. The activation of attentional networks. NeuroImage 2005;26:471–479
  • Asanowicz D, Marzecova A, Jaskowski P, Wolski P. Hemispheric asymmetry in the efficiency of attentional networks. Brain and Cognition 2012;79:117–128
  • Van Voorhis S, Hillyard SA. Visual evoked potentials and selective attention to points in space. Perception and Psychophysics 1977;22:54–62
  • Picton TW. The P300 wave of the human event-related potential. Journal of Clinical Neurophysiology 1992;4:456–476
  • Polich J, Kok A. Cognitive and biological determinants of P300: An integrative review. Biological Psychology 1995;41:103–146
  • Neuhaus AH, Urbanek C, Opgen-Rhein C, Hahn E, Ta T, Koehler S, Gross M, Dettling M. Event-related potentials associated with Attention Network Test. International Journal of Psychophysiology 2010;76:72–79
  • Duncan CC, Kosmidis MH, Mirsky AF. Closed head injury-related information processing: An event-related potential analysis. International Journal of Psychophysiology 2005;58:133–157
  • Lew HL, Lee EH, Pan SS, Date ES. Electrophysiologic abnormalities of auditory and visual information processing patients with traumatic brain injury. American Journal of Physical Medicine and Rehabilitation 2004;83:428–433
  • Levin HS, Williams DH, Eisenberg HM, High WM Jr, Guinto FC Jr. Serial magnetic resonance imaging and neurobehavioural findings after mild to moderate closed head injury. Journal of Neurology, Neurosurgery, and Psychiatry 1992;55:255–262
  • Lezak MD, Howieson DB, Loring DW. Neuropsychological assessment. 4th ed. New York: Oxford University Press; 2004
  • Carrol JFX, McGinley JJ. A screening form for identifying mental health problems in alcohol/other drug dependent persons. Alcohol Treatment Quarterly 2000;19:33–47
  • Ratcliff R. Methods for dealing with reaction time outliers. Psychological Bulletin 1993;114:510–532
  • Scherg M. Fundamental of dipole source potential analysis. In: Grandori F, Hoke M, Romani GL, editors. Auditory evoked magnetic fields and electric potentials. Advances in audiology. Vol. 6. Basel: Karger; 1990. pp 40–69
  • Felmingham KL, Baguley IJ, Green AM. Effects of diffuse axonal injury on speed of information processing following severe traumatic brain injury. Neuropsychology 2004;18:564–571
  • Zahn TP, Mirsky AF. Reaction time indicators of attention deficits in closed head injury. Journal of Clinical and Experimental Neuropsychology 1999;21:352–367
  • Audet R, Mercier L, Collard S, Rochette A, Rejan H. Attention deficits: Is there a right hemisphere specialisation for simple reaction time, sustained attention, and phasic alertness? Brain and Cognition 2000;43:17–21
  • MacLeod JW, Lawrence MA, McDonnell MM, Eskes GA, Klein RA, Shore DI. Appraising the ANT: Psychometric and theoretical considerations of the attention network test. Neuropsychology 2010;24:637–651
  • Kraus MF, Susmaras T, Caughlin BP, Walker CJ, Sweeney JA, Little DM. White matter integrity and cognition in chronic traumatic brain injury: A diffusion tensor imaging study. Brain 2007;130:2508–2519
  • Chen P, Ward I, Hreha K, Liu Y, Khan U. Spatial neglect commonly occurs after traumatic brain injury. Poster presented at the meeting of the American Academy of Neurology. Neurology 2014;82(10 supplement):7. 289
  • Goode KT, Ball KK, Sloane M, Roenker DL, Roth DL, Myers RS, Owsley C. Useful field of view and other neurocognitive indicators of crash risk in older adults. Journal of Clinical Psychology in Medical Settings 1998;5:425–440
  • Novack TA, Banos JH, Anderson AL, Schneider JJ, Weed W, Blankenship J, Salisbury D. UFOV performance and driving ability following traumatic brain injury. Brain Injury 2006;20:455–461
  • Wood JM, Chaparro A, Lacherez P, Hickson L. Useful field of view predicts driving in the presence of distracters. Optometry and Vision Science 2012;89:373–381
  • Callejas A, Lupianez J, Tudela P. The three attentional networks: On their independence and interactions. Brain and Cognition 2004;54:225–227
  • Calleja A, Lupianez J, Funes MJ, Tudela P. Modulations among the alerting, orienting, and executive control networks. Experimental Brain Research 2005;167:2737
  • Asplund CL, Todd JJ, Snyder AP, Marois R. A central role for the lateral prefrontal cortex in goal-directed and stimulus-driven attention. Nature Neuroscience 2010;13:507–512
  • Corbetta M, Schulman GL. Control of goal-directed and stimulus-driven attention in the brain. Nature Reviews Neuroscience 2002;3:201–215
  • Chica AB, Martin-Arevalo E, Botta F, Lupianez J. The spatial orienting paradigm: How to design and interpret spatial attention experiments. Neuroscience and Biobehavioral Reviews 2014;40:35–51

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