Semin Neurol 2013; 33(02): 121-132
DOI: 10.1055/s-0033-1348962
Thieme Medical Publishers 333 Seventh Avenue, New York, NY 10001, USA.

Clinical Neurophysiology in Acute Coma and Disorders of Consciousness

Matthew A. Koenig
1   The Queen's Medical Center, Neuroscience Institute, Honolulu, Hawaii
,
Peter W. Kaplan
2   Department of Neurology, The Johns Hopkins Bayview Medical Center, Baltimore, Maryland
› Author Affiliations
Further Information

Publication History

Publication Date:
25 July 2013 (online)

Abstract

Over the last decade, significant improvements have been made in understanding and categorizing coma and disorders of consciousness. Although imaging techniques have been paramount in exploring disorders of consciousness, electrophysiologic techniques continue to be important for studying brain function in behaviorally unresponsive patients. In acute coma, electroencephalogram and evoked potentials have important roles in excluding nonconvulsive seizures, determining prognosis, monitoring for signs of improvement or worsening, and examining for markers of conscious response to external stimuli. Absence of cortical SSEPs is the most specific marker of poor prognosis after cardiac arrest. Recognition of stimulus-induced epileptiform discharges and clinical seizures has further blurred the lines along the ictal–interictal spectrum in coma. For chronic disorders of consciousness, more experimental techniques, such as cognitive event-related potentials and long-latency evoked potentials, have demonstrated an expanded role in determining prognosis and examining for indicators of consciousness. Like functional magnetic resonance imaging, these specialized techniques have demonstrated signs of preserved cognition in patients who otherwise appear unconscious. Future directions for clinical electrophysiologic testing in disorders of consciousness are likely to include automated and quantitative signal processing techniques and better standardization of cognitive event-related potentials.

 
  • References

  • 1 Wang JT, Young GB, Connolly JF. Prognostic value of evoked responses and event-related brain potentials in coma. Can J Neurol Sci 2004; 31 (4) 438-450
  • 2 Gawryluk JR, D'Arcy RCN, Connolly JF, Weaver DF. Improving the clinical assessment of consciousness with advances in electrophysiological and neuroimaging techniques. BMC Neurol 2010; 10: 11-18
  • 3 Amantini A, Fossi S, Grippo A , et al. Continuous EEG-SEP monitoring in severe brain injury. Neurophysiol Clin 2009; 39 (2) 85-93
  • 4 Friedman D, Claassen J, Hirsch LJ. Continuous electroencephalogram monitoring in the intensive care unit. Anesth Analg 2009; 109 (2) 506-523
  • 5 Scozzafava J, Hussain MS, Brindley PG, Jacka MJ, Gross DW. The role of the standard 20 minute EEG recording in the comatose patient. J Clin Neurosci 2010; 17 (1) 64-68
  • 6 Claassen J, Mayer SA, Kowalski RG, Emerson RG, Hirsch LJ. Detection of electrographic seizures with continuous EEG monitoring in critically ill patients. Neurology 2004; 62 (10) 1743-1748
  • 7 Bauer G, Trinka E. Nonconvulsive status epilepticus and coma. Epilepsia 2010; 51 (2) 177-190
  • 8 Chong DJ, Hirsch LJ. Which EEG patterns warrant treatment in the critically ill? Reviewing the evidence for treatment of periodic epileptiform discharges and related patterns. J Clin Neurophysiol 2005; 22 (2) 79-91
  • 9 Seidel S, Aull-Watschinger S, Pataraia E. The yield of routine electroencephalography in the detection of incidental nonconvulsive status epilepticus—a prospective study. Clin Neurophysiol 2012; 123 (3) 459-462
  • 10 Ronner HE, Ponten SC, Stam CJ, Uitdehaag BMJ. Inter-observer variability of the EEG diagnosis of seizures in comatose patients. Seizure 2009; 18 (4) 257-263
  • 11 Fernández-Torre JL, Rebollo M, Gutiérrez A, López-Espadas F, Hernández-Hernández MA. Nonconvulsive status epilepticus in adults: electroclinical differences between proper and comatose forms. Clin Neurophysiol 2012; 123 (2) 244-251
  • 12 Towne AR, Waterhouse EJ, Boggs JG , et al. Prevalence of nonconvulsive status epilepticus in comatose patients. Neurology 2000; 54 (2) 340-345
  • 13 Hirsch LJ, Claassen J, Mayer SA, Emerson RG. Stimulus-induced rhythmic, periodic, or ictal discharges (SIRPIDs): a common EEG phenomenon in the critically ill. Epilepsia 2004; 45 (2) 109-123
  • 14 Zeiler SR, Turtzo LC, Kaplan PW. SPECT-negative SIRPIDs argues against treatment as seizures. J Clin Neurophysiol 2011; 28 (5) 493-496
  • 15 Koutroumanidis M, Tsatsou K, Bonakis A, Michael M, Tan SV. Stimulus-induced bilateral central periodic discharges, cortical myoclonus and arousal responses in mild reversible coma. Clin Neurophysiol 2008; 119 (11) 2459-2464
  • 16 Wijdicks EFM, Hijdra A, Young GB, Bassetti CL, Wiebe S. Quality Standards Subcommittee of the American Academy of Neurology. Practice parameter: prediction of outcome in comatose survivors after cardiopulmonary resuscitation (an evidence-based review): report of the Quality Standards Subcommittee of the American Academy of Neurology. Neurology 2006; 67 (2) 203-210
  • 17 Oddo M, Rossetti AO. Predicting neurological outcome after cardiac arrest. Curr Opin Crit Care 2011; 17 (3) 254-259
  • 18 Cloostermans MC, van Meulen FB, Eertman CJ, Hom HW, van Putten MJAM. Continuous electroencephalography monitoring for early prediction of neurological outcome in postanoxic patients after cardiac arrest: a prospective cohort study. Crit Care Med 2012; 40 (10) 2867-2875
  • 19 Rossetti AO, Urbano LA, Delodder F , et al. Prognostic value of continuous EEG monitoring during therapeutic hypothermia after cardiac arrest. Crit Care 2010; 14: R173
  • 20 Rittenberger JC, Popescu A, Brenner RP, Guyette FX, Callaway CW. Frequency and timing of nonconvulsive status epilepticus in comatose post-cardiac arrest subjects treated with hypothermia. Neurocrit Care 2012; 16 (1) 114-122
  • 21 Madl C, Kramer L, Domanovits H , et al. Improved outcome prediction in unconscious cardiac arrest survivors with sensory evoked potentials compared with clinical assessment. Crit Care Med 2000; 28 (3) 721-726
  • 22 Zandbergen EGJ, Koelman JHTM, de Haan RJ, Hijdra A. PROPAC-Study Group. SSEPs and prognosis in postanoxic coma: only short or also long latency responses?. Neurology 2006; 67 (4) 583-586
  • 23 Bruno MA, Gosseries O, Ledoux D, Hustinx R, Laureys S. Assessment of consciousness with electrophysiological and neurological imaging techniques. Curr Opin Crit Care 2011; 17 (2) 146-151
  • 24 Bruno MA, Vanhaudenhuyse A, Thibaut A, Moonen G, Laureys S. From unresponsive wakefulness to minimally conscious PLUS and functional locked-in syndromes: recent advances in our understanding of disorders of consciousness. J Neurol 2011; 258 (7) 1373-1384
  • 25 Amantini A, Carrai R, Fossi S, Pinto F, Grippo A. The role of early electroclinical assessment in improving the evaluation of patients with disorders of consciousness. Funct Neurol 2011; 26 (1) 7-14
  • 26 Bagnato S, Boccagni C, Prestandrea C, Sant'Angelo A, Castiglione A, Galardi G. Prognostic value of standard EEG in traumatic and non-traumatic disorders of consciousness following coma. Clin Neurophysiol 2010; 121 (3) 274-280
  • 27 Boccagni C, Bagnato S, Sant Angelo A, Prestandrea C, Galardi G. Usefulness of standard EEG in predicting the outcome of patients with disorders of consciousness after anoxic coma. J Clin Neurophysiol 2011; 28 (5) 489-492
  • 28 Landsness E, Bruno MA, Noirhomme Q , et al. Electrophysiological correlates of behavioural changes in vigilance in vegetative state and minimally conscious state. Brain 2011; 134 (Pt 8) 2222-2232
  • 29 Gosseries O, Schnakers C, Ledoux D , et al. Automated EEG entropy measurements in coma, vegetative state/unresponsive wakefulness syndrome and minimally conscious state. Funct Neurol 2011; 26 (1) 25-30
  • 30 Fellinger R, Klimesch W, Schnakers C , et al. Cognitive processes in disorders of consciousness as revealed by EEG time-frequency analyses. Clin Neurophysiol 2011; 122 (11) 2177-2184
  • 31 Cruse D, Chennu S, Chatelle C , et al. Bedside detection of awareness in the vegetative state: a cohort study. Lancet 2011; 378 (9809) 2088-2094
  • 32 Lehembre R, Marie-Aurélie B, Vanhaudenhuyse A , et al. Resting-state EEG study of comatose patients: a connectivity and frequency analysis to find differences between vegetative and minimally conscious states. Funct Neurol 2012; 27 (1) 41-47
  • 33 Fischer C, Luauté J, Adeleine P, Morlet D. Predictive value of sensory and cognitive evoked potentials for awakening form coma. Neurology 2004; 63(4): 669-673
  • 34 Daltrozzo J, Wioland N, Mutschler V, Kotchoubey B. Predicting coma and other low responsive patients outcome using event-related brain potentials: a meta-analysis. Clin Neurophysiol 2007; 118 (3) 606-614
  • 35 Fischer C, Luauté J, Morlet D. Event-related potentials (MMN and novelty P3) in permanent vegetative or minimally conscious states. Clin Neurophysiol 2010; 121 (7) 1032-1042
  • 36 Cavinato M, Volpato C, Silvoni S, Sacchetto M, Merico A, Piccione F. Event-related brain potential modulation in patients with severe brain damage. Clin Neurophysiol 2011; 122 (4) 719-724