2016
DOI: 10.1016/j.clinph.2015.07.039
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EEG entropy measures indicate decrease of cortical information processing in Disorders of Consciousness

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Cited by 102 publications
(75 citation statements)
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“…Our results add to these findings by indicating that the reactivity of these EEG frequencies to a circadian Zeitgeber, namely light, is also different across clinical entities. Similarly, earlier findings of lower signal complexity in UWS compared to MCS patients 8,22,26,27 were here extended by the observation that UWS patients do not even exhibit robust signal complexity changes across such extreme shifts as day and night. Diurnal changes in entropy across day and night are to be expected as daytime usually goes in hand with increased awareness and sensory processing.…”
Section: Discussionsupporting
confidence: 80%
“…Our results add to these findings by indicating that the reactivity of these EEG frequencies to a circadian Zeitgeber, namely light, is also different across clinical entities. Similarly, earlier findings of lower signal complexity in UWS compared to MCS patients 8,22,26,27 were here extended by the observation that UWS patients do not even exhibit robust signal complexity changes across such extreme shifts as day and night. Diurnal changes in entropy across day and night are to be expected as daytime usually goes in hand with increased awareness and sensory processing.…”
Section: Discussionsupporting
confidence: 80%
“…Within nonlinear symbolic analysis, PEn is a very popular index that has been recently used to characterize the EEG recording from a broad variety of mental problems, including Alzheimer's disease [58], Parkinson's disease [59], epileptic seizure [60], depth of anesthesia [55], consciousness disorders [61] and obsessive compulsive disorders [62], among others. However, to the best of our knowledge, no thorough study has previously considered this entropy for automatic recognition of emotions.…”
Section: Discussionmentioning
confidence: 99%
“…Our goal is to devise a strategy that can offer an EEG-based assessment of brain responsiveness in resting state, without the need for extrinsic stimulation. Although there have been previous attempts to reach this goal (Bai et al, 2017), these attempts have been mostly based on information-theoretic (Pollonini et al, 2010; Sarà & Pistoia, 2010; Gosseries et al, 2011; King et al, 2013; Marinazzo et al, 2014; Thul et al, 2016) or graph-theoretic (Lehembre et al, 2012; Leon-Carrion et al, 2012; Chennu et al, 2014; Höller et al, 2014; Varotto et al, 2014; Chennu et al, 2017; Numan et al, 2017) metrics, which do not provide direct information about the underlying neuronal dynamics. Furthermore, the majority of these studies focus on distinguishing minimally conscious patients from patients in vegetative state.…”
Section: Introductionmentioning
confidence: 99%