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Sleep Spindles and K-Complexes Are Favorable Prognostic Biomarkers in Critically Ill Patients

Madeleine M. Grigg-Damberger, Omar Hussein, Tobias Kulik

2022Journal of Clinical Neurophysiology14 citationsDOI

Abstract

SUMMARY: In this narrative review, we summarize recent research on the prognostic significance of biomarkers of sleep in continuous EEG and polysomnographic recordings in intensive care unit patients. Recent studies show the EEG biosignatures of non-rapid eye movement 2 sleep (sleep spindles and K-complexes) on continuous EEG in critically ill patients better predict functional outcomes and mortality than the ictal-interictal continuum patterns. Emergence of more complex and better organized sleep architecture has been shown to parallel neurocognitive recovery and correlate with functional outcomes in traumatic brain injury and strokes. Particularly interesting are studies which suggest intravenous dexmedetomidine may induce a more biomimetic non-rapid eye movement sleep state than intravenous propofol, potentially providing more restorative sleep and lessening delirium. Protocols to improve intensive care unit sleep and neurophysiological studies evaluating the effect of these on sleep and sleep architecture are here reviewed.

Topics & Concepts

NeurocognitiveElectroencephalographyMedicineSleep architectureIntensive care unitSleep (system call)Sleep spindleCritically illEye movementRapid eye movement sleepNeurophysiologyDexmedetomidineIntensive care medicineIntensive carePhysical medicine and rehabilitationSleep StagesPolysomnographyTraumatic brain injuryNeuroscienceSleep deprivationWakefulnessNon-rapid eye movement sleepSlow-wave sleepDeliriumSleep disorderIntensive Care Unit Cognitive DisordersAnesthesia and Neurotoxicity ResearchSleep and Wakefulness Research
Sleep Spindles and K-Complexes Are Favorable Prognostic Biomarkers in Critically Ill Patients | Litcius