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01-09-2016 | Original Communication

EEG ultradian rhythmicity differences in disorders of consciousness during wakefulness

Authors: Andrea Piarulli, Massimo Bergamasco, Aurore Thibaut, Victor Cologan, Olivia Gosseries, Steven Laureys

Published in: Journal of Neurology | Issue 9/2016

Abstract

Temporal fluctuations of cognitively-mediated behaviors in minimally conscious state (MCS) have been linked to changes of awareness, but the time-pattern of these variations remains ill-described. We analyzed 4-h EEG recordings from 12 patients with disorders of consciousness (6 MCS and 6 vegetative state/unresponsive wakefulness syndrome, VS/UWS). Relative powers (delta, theta, alpha, beta1 and beta2 bands) and spectral entropy were estimated (Fz, Cz and Pz derivations). Spectral entropy time-courses were then analyzed. MCS patients had higher theta and alpha and lower delta power when compared to VS/UWS. They showed higher spectral entropy mean value and higher time variability. MCS patients were characterized by spectral entropy fluctuations with periodicities of 70 min (range 57–80 min). Notably, these periodicities closely resemble those described in awake healthy subjects, which were hypothesized to be related to fluctuation in vigilance/attention. No significant periodicity was observed for VS/UWS. The spectral entropy periodicity found in MCS patients could reflect the fluctuation of awareness responsible for the inconsistency of MCS manifestation of cognitively-mediated behaviors. The presence of a 70 min periodicity in spectral entropy could permit clinicians to better choose their time-window when performing a clinical assessment of consciousness. It could also permit to monitor fluctuations in cognitive performance (i.e., response to command) during complementary testing by passive or active electrophysiological or functional neuroimaging paradigms or in resting state conditions.

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Laureys S, Celesia GG, Cohadon F, Lavrijsen J, León-Carrión J, Sannita WG, Sazbon L, Schmutzhard E, von Wild KR, Zeman A, Dolce G, Force European Task, on Disorders of Consciousness (2010) Unresponsive wakefulness syndrome: a new name for the vegetative state or apallic syndrome. BMC Med 8:68CrossRefPubMedPubMedCentral

Giacino JT, Ashwal S, Childs N, Cranford R, Jennett B, Katz DI, Kelly JP, Rosenberg JH, Whyte J, Zafonte RD, Zasler ND (2002) The minimally conscious state, definition and diagnostic criteria. Neurology 58:349–353CrossRefPubMed

Bruno MA, Vanhaudenhuyse A, Thibaut A, Moonen G, Laureys S (2011) From unresponsive wakefulness to minimally conscious PLUS and functional locked-in syndromes: recent advances in our understanding of disorders of consciousness. J Neurol 258:1373–1384CrossRefPubMed

Majerus S, Bruno MA, Schnakers C, Giacino JT, Laureys S (2009) The problem of aphasia in the assessment of consciousness in brain-damaged patients. Prog Brain Res 177:49–61CrossRefPubMed

Giacino JT, Fins JJ, Laureys S, Schiff ND (2014) Disorders of consciousness after acquired brain injury: the state of the science. Nat Rev Neurol 10:99–114CrossRefPubMed

Kotchoubey B, Vogel D, Lang S, Müller F (2014) What kind of consciousness is minimal? Brain Inj 28:1156–1163CrossRefPubMed

Monti MM, Laureys S, Owen AM (2010) The vegetative state. BMJ 341:c3765CrossRefPubMed

Giacino JT, Kalmar K, Whyte J (2004) The JFK Coma Recovery Scale-Revised: measurement characteristics and diagnostic utility. Arch Phys Med Rehabil 85:2020–2029CrossRefPubMed

Seel RT, Sherer M, Whyte J, Katz DI, Giacino JT, Rosenbaum AM, Hammond FM, Kalmar K, Pape TL, Zafonte R, Biester RC, Kaelin D, Kean J, Zasler N (2010) Assessment scales for disorders of consciousness: evidence-based recommendations for clinical practice and research. Arch Phys Med Rehab 91:1795–1813CrossRef

10.

Monti MM, Vanhaudenhuyse A, Coleman MR, Boly M, Pickard JD, Tshibanda L, Owen AM, Laureys S (2010) Willful modulation of brain activity in disorders of consciousness. N Engl J Med 362:579–589CrossRefPubMed

11.

Laureys S, Schiff ND (2012) Coma and consciousness: paradigms (re)framed by neuroimaging. Neuroimage 61:478–491CrossRefPubMed

12.

Gosseries O, Zasler ND, Laureys S (2014) Recent advances in disorders of consciousness: focus on the diagnosis. Brain Inj 28:1141–1150CrossRefPubMed

13.

Gosseries O, Di H, Laureys S, Boly M (2014) Measuring consciousness in severely damaged brains. Annu Rev Neurosci 37:457–478CrossRefPubMed

14.

Mahon P, Greene BR, Lynch EM, McNamara B, Shorten GD (2008) Can state or response entropy be used as a measure of sleep depth? Anaesthesia 63:1309–1313CrossRefPubMed

15.

Vanluchene AL, Vereecke H, Thas O, Mortier EP, Shafer SL, Struys MM (2004) Spectral entropy as an electroencephalographic measure of anesthetic drug effect: a comparison with bispectral index and processed midlatency auditory evoked response. Anesthesiology 101:34–42CrossRefPubMed

16.

Gosseries O, Schnakers C, Ledoux D, Vanhaudenhuyse A, Bruno MA, Demertzi A, Noirhomme Q, Lehembre R, Damas P, Goldman S, Peeters E, Moonen G, Laureys S (2011) Automated EEG entropy measurements in coma, vegetative state/unresponsive wakefulness syndrome and minimally conscious state. Funct Neurol 26:25–30PubMedPubMedCentral

17.

Cologan V, Drouot X, Parapatics S, Delorme A, Gruber G, Moonen G, Laureys S (2013) Sleep in the unresponsive wakefulness syndrome and minimally conscious state. J Neurotrauma 30:339–346CrossRefPubMed

18.

Manly BJF (2006) Randomization, bootstrap and Monte Carlo methods in biology, 3rd edn. Chapman & Hall/CRC, London

19.

Benjamini Y, Yekutieli D (2001) The control of the false discovery rate in multiple testing under dependency. Ann Statist 29:1165–1188CrossRef

20.

Torrence C, Compo GP (1998) A practical guide to wavelet analysis. B Am Meteorol Soc 79:61–78CrossRef

21.

Shapiro SS, Wilk MB (1965) An analysis of variance test for normality (complete samples). Biometrika 52:591–611CrossRef

22.

Sitt JD, King JR, El Karoui I, Rohaut B, Faugeras F, Gramfort A, Cohen L, Sigman M, Dehaene S, Naccache L (2014) Large scale screening of neural signatures of consciousness in patients in a vegetative or minimally conscious state. Brain 137:2258–2270CrossRefPubMedPubMedCentral

23.

Lehembre R, Bruno MA, Vanhaudenehuyse A, Chatelle C, Cologan V, Leclerq Y, Soddu A, Macq B, Laureys S, Noirhomme Q (2012) Resting-state EEG study of comatose patients: a connectivity and frequency analysis to find differences between vegetative and minimally conscious states. Funct Neurol 27:41–47PubMedPubMedCentral

24.

Williams ST, Conte MM, Goldfine AM, Noirhomme Q, Gosseries Q, Thonnard M, Beattie B, Hersh J, Katz DI, Victor JD, Laureys S, Schiff ND (2013) Common resting brain dynamics indicate a possible mechanism underlying zolpidem response in severe brain injury. ELife 2:e01157PubMedPubMedCentral

25.

Carboncini MC, Piarulli A, Virgillito A, Arrighi PA, Andre P, Tomaiuolo F, Frisoli A, Bergamasco M, Rossi B, Bonfiglio L (2014) A case of post-traumatic minimally conscious state reversed by midazolam: clinical aspects and neurophysiological correlates. Restor Neurol Neuros 32:767–787

26.

Cruse D, Thibaut A, Demertzi A, Nantes JC, Bruno MA, Gosseries O, Vanhaudenhuyse A, Bekinschtein TA, Owen AM, Laureys S (2013) Actigraphy assessments of circadian sleep-wake cycles in the vegetative and minimally conscious states. BMC Med 11:18CrossRefPubMedPubMedCentral

27.

Tsuji Y, Kobayashi T (1988) Short and long ultradian EEG components in daytime arousal. Electroen Clin Neuro 70:110–117CrossRef

28.

Laureys S (2007) Eyes open, brain shut. Sci Am 296:84–89CrossRefPubMed

29.

Kleitman N (1961) The nature of dreaming. In: Wolstenholme GEW, O’Connor M (eds) The nature of sleep. Churchill, London, pp 349–364

30.

Kleitman N (1982) Basic rest-activity cycle–22 years later. Sleep 5:311–317PubMed

31.

Okawa M, Matousek M, Petersén I (1984) Spontaneous vigilance fluctuations in the daytime. Psychophysiology 21:207–211CrossRefPubMed

32.

Manseau C, Broughton RJ (1984) Bilaterally synchronous ultradian EEG rhythms in awake adult humans. Psychophysiology 21:265–273CrossRefPubMed

33.

Kinomura S, Larsson J, Gulyás B, Roland PE (1996) Activation by attention of the human reticular formation and thalamic intralaminar nuclei. Science 271:512–515CrossRefPubMed

34.

Saper CB, Scammell TE, Lu J (2005) Hypothalamic regulation of sleep and circadian rhythms. Nature 437:1257–1263CrossRefPubMed

35.

Schiff ND (2008) Central thalamic contributions to arousal regulation and neurological disorders of consciousness. Ann NY Acad Sci 1129:105–118CrossRefPubMed

36.

Thibaut A, Bruno MA, Ledoux D, Demertzi A, Laureys S (2014) tDCS in patients with disorders of consciousness: sham-controlled randomized double-blind study. Neurology 82:1112–1118CrossRefPubMed

Title: EEG ultradian rhythmicity differences in disorders of consciousness during wakefulness
Authors: Andrea Piarulli
Massimo Bergamasco
Aurore Thibaut
Victor Cologan
Olivia Gosseries
Steven Laureys
Publication date: 01-09-2016
Publisher: Springer Berlin Heidelberg
Published in: Journal of Neurology / Issue 9/2016
Print ISSN: 0340-5354
Electronic ISSN: 1432-1459
DOI: https://doi.org/10.1007/s00415-016-8196-y

At a glance: The STEP trials

Springer Medicine

EEG ultradian rhythmicity differences in disorders of consciousness during wakefulness

Abstract

At a glance: The STEP trials

Springer Medicine

Abstract

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