Early cognitive assessment of critically-ill acute respiratory distress syndrome (ARDS) patients with delirium using a multidimensional electrophysiological evaluation battery (mEEG) to identify and characterize the neural correlates of cognitive dysfunctions associated with delirium (vigilance, attention, semantic and lexical processing, self-processing), and to develop a prognostic evaluation of neurocognitive and psychological disorders using an innovative non-behavioral approach.
Delirium is an altered mental status associated with specific manifestations such as reduced ability to direct, focus, maintain and shift attention (DSM V criteria). The vulnerability of critically-ill ARDS patients explains the high incidence of delirium (up to 80%) in this setting. Delirium is an independent predictor of post-traumatic stress disorder, long term cognitive decline and mortality. To reduce this medical and social burden, a more complete description of delirium is needed both in terms of cognitive impairments and long term neurological and neuropsychological impact. Actually, it could be argued that the current exclusive behavioral assessment of these patients is insufficient in terms of diagnosis and prognostic assessment. In recent years, the study of consciousness has made major progress thanks to the use of innovative electrophysiological exploration methods. This work has notably allowed the development of new non-behavioral tools for the exploration of brain function in brain damaged patients in response to complex auditory stimulations (multidimensional electrophysiological battery, mEEG). In this context, the investigator team has recently demonstrated alterations in cognitive functions related to language- and self-processing in ARDS patients with severe acute respiratory syndrome (SARS)-CoV2 infection. These electrophysiological cognitive alterations were particularly marked in COVID-19 patients with delirium. Further studies are needed to disentangle the cognitive impact specifically related to delirium from that related to a severe form of COVID-19. The primary objective of this study is to identify diagnostic electrophysiological signatures of cognitive dysfunctions associated with the acute phase of delirium in critically-ill ARDS patients using a multidimensional electrophysiological assessment (mEEG) recording at rest and during auditory stimulation (first visit, V1). Secondary objectives are to characterize the impact of intensive care unit (ICU)-related delirium on neurocognitive and psychological dysfunctions observed at 6 months (second visit, V2), in order to explore the prognostic predictive value of electrophysiological data acquired during the acute phase of delirium.
Study Type
mEEG assessment (V1) will be performed at the patient's bed within 72 hours of the diagnosis of delirium. The mEEG recording, which lasts approximately 2 hours, will be performed by one of the investigators with expertise in electrophysiological acquisition. This non-invasive assessment consists of placing an EEG net on the scalp of the participants and earphones through which the auditory stimuli will be delivered.
Functional connectivity: weighted Symbolic Mutual Information (wSMI) measured at rest by multidimensional ElectroEncephaloGram (mEEG) at the acute phase of delirium
Analysis of data from the multidimensional electrophysiological battery (mEEG) at rest during the acute phase of delirium: continuous value (between 0 and 1) of weighted Symbolic Mutual Information (wSMI)
Time frame: Baseline
Event-related potentials measured during auditory stimulation by multidimensional ElectroEncephaloGram (mEEG) at the acute phase of delirium
Analysis of data from the multidimensional electrophysiological battery (mEEG) during auditory stimulation at the acute phase of delirium: subject's own name effect (subject's own name vs other first name) measured by spatio-temporal
Time frame: Baseline
Event-related potentials measured during auditory stimulation by multidimensional ElectroEncephaloGram (mEEG) at the acute phase of delirium
Analysis of data from the multidimensional electrophysiological battery (mEEG) during auditory stimulation at the acute phase of delirium: local effect (local deviant tone vs local standard tone) measured by spatio-temporal clustering by multidimensional ElectroEncephaloGram (mEEG) at the acute phase of delirium
Time frame: Baseline
Event-related potentials measured during auditory stimulation by multidimensional ElectroEncephaloGram (mEEG) at the acute phase of delirium
Analysis of data from the multidimensional electrophysiological battery (mEEG) during auditory stimulation at the acute phase of delirium: global effect (global deviant tone vs global standard tone) measured by spatio-temporal clustering by multidimensional ElectroEncephaloGram (mEEG) at the acute phase of delirium
Time frame: Baseline
Event-related potentials measured during auditory stimulation by multidimensional ElectroEncephaloGram (mEEG) at the acute phase of delirium
• Analysis of data from the multidimensional electrophysiological battery (mEEG) during auditory stimulation at the acute phase of delirium: semantic effect (semantic unrelated words vs semantic related words) measured by spatio-temporal clustering by multidimensional ElectroEncephaloGram (mEEG) at the acute phase of delirium
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INTERVENTIONAL
Allocation
NA
Purpose
BASIC_SCIENCE
Masking
NONE
Enrollment
30
Time frame: Baseline
Event-related potentials measured during auditory stimulation by multidimensional ElectroEncephaloGram (mEEG) at the acute phase of delirium
• Analysis of data from the multidimensional electrophysiological battery (mEEG) at the acute phase of delirium during auditory stimulation : P3 amplitude to subject's own name stimuli (microvolts)
Time frame: Baseline
Event-related potentials measured during auditory stimulation by multidimensional ElectroEncephaloGram (mEEG) at the acute phase of delirium
• Analysis of data from the multidimensional electrophysiological battery (mEEG) at the acute phase of delirium during auditory stimulation : P3 amplitude to local deviant tones (microvolts)
Time frame: Baseline
Event-related potentials measured during auditory stimulation by multidimensional ElectroEncephaloGram (mEEG) at the acute phase of delirium
• Analysis of data from the multidimensional electrophysiological battery (mEEG) at the acute phase of delirium during auditory stimulation : P3 amplitude to global deviant tones (microvolts)
Time frame: Baseline
Event-related potentials measured during auditory stimulation by multidimensional ElectroEncephaloGram (mEEG) at the acute phase of delirium
• Analysis of data from the multidimensional electrophysiological battery (mEEG) at the acute phase of delirium during auditory stimulation : N400 amplitude to semantic unrelated words (microvolts)
Time frame: Baseline
Event-related potentials measured during auditory stimulation by multidimensional ElectroEncephaloGram (mEEG) at the acute phase of delirium
Analysis of data from the multidimensional electrophysiological battery (mEEG) at the acute phase of delirium during auditory stimulation : P3 latency to subject's own name stimuli (milliseconds)
Time frame: Baseline
Event-related potentials measured during auditory stimulation by multidimensional ElectroEncephaloGram (mEEG) at the acute phase of delirium
Analysis of data from the multidimensional electrophysiological battery (mEEG) at the acute phase of delirium during auditory stimulation : P3 latency to local deviant tones (milliseconds)
Time frame: Baseline
Event-related potentials measured during auditory stimulation by multidimensional ElectroEncephaloGram (mEEG) at the acute phase of delirium
• Analysis of data from the multidimensional electrophysiological battery (mEEG) at the acute phase of delirium during auditory stimulation : P3 latency to global deviant tones (milliseconds)
Time frame: Baseline
Event-related potentials measured during auditory stimulation by multidimensional ElectroEncephaloGram (mEEG) at the acute phase of delirium
• Analysis of data from the multidimensional electrophysiological battery (mEEG) at the acute phase of delirium during auditory stimulation : N400 latency to semantic unrelated words (milliseconds)
Time frame: Baseline