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Original Articles

Attentional dysfunction and recovery in concussion: effects on the P300m and contingent magnetic variation

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Pages 464-473 | Received 10 Mar 2017, Accepted 14 Jan 2018, Published online: 22 Jan 2018

References

  • Slobounov S, Gay M, Johnson B, Zhang K. Concussion in athletics: ongoing clinical and brain imaging research controversies. Brain Imaging Behav. 2012;6:224–43.
  • Binder LM, Rohling ML, Larrabee GJ. A review of mild head trauma. Part I: meta-analytic review of neuropsychological studies. J Clin Exp Neuropsyc. 1997;19:421–31.
  • Frencham KAR, Fox AM, Maybery MT. Neuropsychological studies of mild traumatic brain injury: a meta-analytic review of research since 1995. J Clin Exp Neuropsyc. 2005;27:334–51.
  • Palmese CA, Raskin SA. The rehabilitation of attention in individuals with mild traumatic brain injury, using the APT-II programme. Brain Inj. 2000;14:535–48.
  • Posner MI, Petersen SE. The attention system of the human brain. Annu Rev Neurosci. 1990;13:25–42.
  • Fan J, McCandliss BD, Sommer T, Raz A, Posner MI. Testing the efficiency and independence of attentional networks. J Cogn Neurosci. 2002;14:340–47.
  • Ishigami Y, Klein RM. Repeated measurement of the components of attention using two versions of the Attention Network Test (ANT): stability, isolability, robustness, and reliability. J Neurosci Meth. 2010;190:117–28.
  • Ishigami Y, Klein RM. Repeated measurement of the components of attention of older adults using the two versions of the Attention Network Test: stability, isolability, robustness, and reliability. Front Aging Neurosci. 2011;3:17.
  • Ishigami Y, Fisk JD, Wojtowicz M, Klein RM. Repeated measurement of the attention components of patients with multiple sclerosis using the Attention Network Test-Interaction (ANT-I): stability, isolability, robustness, and reliability. J Neurosci Meth. 2013;216:1–9.
  • Johnson KA, Robertson IH, Barry E, Mulligan A, Dáibhis A, Daly M, Watchorn A, Gill M, Bellgrove MA. Impaired conflict resolution and alerting in children with ADHD: evidence from the Attention Network Task (ANT). J Child Psychol Psyc. 2008;49:1339–47.
  • Konrad K, Neufang S, Hanisch C, Fink GR, Herpertz-Dahlmann B. Dysfunctional attentional networks in children with attention deficit/hyperactivity disorder: evidence from an event-related functional magnetic resonance imaging study. Biol Psychiat. 2006;59:643–51.
  • Missonnier P, Herrmann FR, Richiardi J, Rodriguez C, Deiber MP, Gold G, Giannakopoulos P. Attention-related potentials allow for a highly accurate discrimination of mild cognitive impairment subtypes. Neurodegener Dis. 2013;12:59–70.
  • Neuhaus AH, Koehler S, Opgen-Rhein C, Urbanek C, Hahn E, Dettling M. Selective anterior cingulate cortex deficit during conflict solution in schizophrenia: an event-related potential study. J Psychiatr Res. 2007;41:635–44.
  • Oberlin BG, Alford JL, Marrocco RT. Normal attention orienting but abnormal stimulus alerting and conflict effect in combined subtype of ADHD. Behav Brain Res. 2005;165:1–11.
  • Wang K, Fan J, Dong Y, Wang C, Lee TMC, Posner MI. Selective impairment of attentional networks of orienting and executive control in schizophrenia. Schizophr Res. 2005;78:235–41.
  • Halterman CI, Langan J, Drew A, Rodriguez E, Rodriguez E, Osternig LR, Chou LS, van Donkelaar P. Tracking the recovery of visuospatial attention deficits in mild traumatic brain injury. Brain. 2006;129:747–53.
  • Howell D, Osternig L, VAN Donkelaar P, Mayr U, Chou LS. Effects of concussion on attention and executive function in adolescents. Med Sci Sports Exerc. 2013;45:1030–37.
  • Van Donkelaar P, Langan J, Rodriguez E, Drew A, Halterman C, Osternig LR, Chou LS. Attentional deficits in concussion. Brain Inj. 2005;19:1031–39.
  • Polich J. Updating P300: an integrative theory of P3a and P3b. Clin Neurophysiol. 2007;118:2128–48.
  • Baillargeon A, Lassonde M, Leclerc S, Ellemberg D. Neuropsychological and neurophysiological assessment of sport concussion in children, adolescents and adults. Brain Inj. 2012;26:211–20.
  • Bernstein DM. Information processing difficulty long after self-reported concussion. J Int Neuropsych Soc. 2002;8:673–82.
  • Broglio SP, Pontifex MB, O’Connor P, Hillman CH. The persistent effects of concussion on neuroelectric indices of attention. J Neurotrauma. 2009;26:1463–70.
  • De Beaumont L, Brisson B, Lassonde M, Jolicoeur P. Long-term electrophysiological changes in athletes with a history of multiple concussions. Brain Inj. 2007;21:631–44.
  • Dupuis F, Johnston KM, Lavoie M, Lepore F, Lassonde M. Concussions in athletes produce brain dysfunction as revealed by event-related potentials. NeuroReport. 2000;11:4087–92.
  • Gosselin N, Theriault M, Leclerc S, Montplaisir J, Lassonde M. Neurophysiological anomalies in symptomatic and asymptomatic concussed athletes. Neurosurgery. 2006;58:1151–61.
  • Lachapelle J, Bolduc-Teasdale J, Ptito A, McKerral M. Deficits in complex visual information processing after mild TBI: electrophysiological markers and vocational outcome prognosis. Brain Inj. 2008;22:265–74.
  • Lavoie ME, Dupuis F, Johnston KM, Leclerc S, Lassonde M. Visual p300 effects beyond symptoms in concussed college athletes. J Clin Exp Neuropsyc. 2004;26:55–73.
  • Pratap-Chand R, Sinniah M, Salem FA. Cognitive evoked potential (P300): a metric for cerebral concussion. Acta Neurol Scand. 1988;78:185–89.
  • Sangal RB, Sangal JM. Closed head injury patients with mild cognitive complaints without neurological or psychiatric findings have abnormal visual P300 latencies. Biol Psyc. 1996;39:305–07.
  • Segalowitz SJ, Bernstein DM, Lawson S. P300 event-related potential decrements in well-functioning university students with mild head injury. Brain Cogn. 2001;45:342–56.
  • Theriault M, De Beaumont L, Gosselin N, Filipinni M, Lassonde M. Electrophysiological abnormalities in well functioning multiple concussed athletes. Brain Inj. 2009;23:899–906.
  • Trujillo LT, Kornguth S, Schnyer DM. An ERP examination of the different effects of sleep deprivation on exogenously cued and endogenously cued attention. Sleep. 2009;32:1285.
  • Brunia CHM. Movement and stimulus preceding negativity. Biol Psychol. 1988;26:165–78.
  • Hamano T, Lüders HO, Ikeda A, Collura TF, Comair YG, Shibasaki H. The cortical generators of the contingent negative variation in humans: a study with subdural electrodes. Electroencephalogr Clin Neurophysiol/Evoked Potentials Section. 1997;104:257–68.
  • Kutas M, Donchin E. Preparation to respond as manifested by movement-related brain potentials. Brain Res. 1980;202:95–115.
  • Rohrbaugh JW, Syndulko K, Lindsley DB. Brain wave components of the contingent negative variation in humans. Science. 1976;191:1055–57.
  • Gaetz M, Weinberg H. Electrophysiological indices of persistent post-concussion symptoms. Brain Inj. 2000;14:815–32.
  • Müller A, Candrian G, Dall’Acqua P, Kompatsiari K, Baschera GM, Mica L, Simmen HP, Glaab R, Fandino J, Schwendinger M, Meier C, Ulbrich EJ, Johannes S. Altered cognitive processes in the acute phase of mTBI: an analysis of independent components of event-related potentials. NeuroReport. 2015;26:952–57.
  • Ghajar J, Ivry RB, Consortium CANR. The predictive brain state: timing deficiency in traumatic brain injury? Neurorehabil Neural Repair. 2008;22:217–27.
  • Hämäläinen M, Hari R, Ilmoniemi RJ, Knuutila J, Lounasmaa OV. Magnetoencephalography – theory, instrumentation, and applications to noninvasive studies of the working human brain. Rev Mod Phys. 1993;65:413–97.
  • Oldfield RC. The assessment and analysis of handedness: the Edinburgh Inventory. Neuropsychologia. 1971;9:97–113.
  • King NS, Crawford S, Wenden FJ, Moss NE, Wade DT. The Rivermead Post Concussion Symptoms Questionnaire: a measure of symptoms commonly experienced after head injury and its reliability. J Neurol. 1995;242:587–92.
  • Guskiewicz KM, Register-Mihalik J, McCrory P, McCrea M, Johnston K, Makdissi M, Dvorák J, Davis G, Meeuwisse W. Evidence-based approach to revising the SCAT2: introducing the SCAT3. Br J Sports Med. 2013;47:289–93.
  • Studebaker GA. A “rationalized” arcsine transform. J Speech Hear Res. 1985;28:455–62.
  • Taulu S, Simola J. Spatiotemporal signal space separation method for rejecting nearby interference in MEG measurements. Phys Med Biol. 2006;51:1759–68.
  • Gramfort A, Luessi M, Larson E, Engemann DA, Strohmeier D, Brodbeck C, Parkkonen L, Hämäläinen MS. MNE software for processing MEG and EEG data. NeuroImage. 2014;86:446–60.
  • Hyvärinen A, Oja E. A fast fixed-point algorithm for independent component analysis. Neural Comput. 1997;9:1483–92.
  • Skrandies W. Global field power and topographic similarity. Brain Topogr. 1990;3:137–41.
  • Meeren HKM, De Gelder B, Ahlfors SP, Hämäläinen MS, Hadjikhani N. Different cortical dynamics in face and body perception: an MEG study. PLoS One. 2013;8:e71408.
  • Neurology AAO. Practice parameter: the management of concussion in sports (summary statement). Report of the Quality Standards Subcommittee. Neurology. 1997;48:581–85.
  • Bazarian JJ, McClung J, Shah MN, Cheng YT, Flesher W, Kraus J. Mild traumatic brain injury in the United States, 1998–2000. Brain Inj. 2005;19:85–91.
  • Polich J, Kok A. Cognitive and biological determinants of P300: an integrative review. Biol Psychol. 1995;41:103–46.
  • Coull JT, Frith CD, Buchel C, Nobre AC. Orienting attention in time: behavioural and neuroanatomical distinction between exogenous and endogenous shifts. Neuropsychologia. 2000;38:808–19.

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