Parametrization of the dying brain: A case report from ICU bed-side EEG monitoring

Parametrization of the dying brain: A case report from ICU bed-side EEG monitoring

Background: Cortical high-frequency activation immediately before death has been reported, raising questions about an enhanced conscious state at this critical time. Here, we analyzed an electroencephalogram (EEG) from a comatose patient during the dying process with a standard bedside monitor and s...

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Bibliographic Details
Main Authors: Sebastian Zinn, Srdjan Z. Dragovic, Jan A. Kloka, Laurent M. Willems, Sebastian Harder, Stephan Kratzer, Kai D. Zacharowski, Gerhard Schneider, Paul S. García, Matthias Kreuzer
Format: Article
Language:English
Published: Elsevier 2025-01-01
Series:NeuroImage
Subjects:
Death
Electroencephalography
Brain activity
Unresponsive coma
End-of-life
FOOOF
Online Access:http://www.sciencedirect.com/science/article/pii/S1053811924004774
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Summary:Background: Cortical high-frequency activation immediately before death has been reported, raising questions about an enhanced conscious state at this critical time. Here, we analyzed an electroencephalogram (EEG) from a comatose patient during the dying process with a standard bedside monitor and spectral parameterization techniques. Methods: We report neurophysiologic features of a dying patient without major cortical injury. Sixty minutes of frontal EEG activity was recorded using the Sedline™ monitor. Quantitative metrics of the frequency spectrum, the non-oscillatory 1/f characteristic, and signal complexity with Lemple-Ziv-Welch and permutation entropy were calculated. In addition to comparing the EEG trajectories over time, we provide a comparison to EEG records obtained from other studies with well-known vigilance states (sleep, anesthesia, and wake). Results: Although we observed changes in high-frequency activation during the dying process, larger alterations of the aperiodic EEG components were also noted. These changes differed dramatically when compared to EEG records representative of wake, slow-wave sleep, or anesthesia. Although still fundamentally unique, the neuronal activity present in the dying brain is more similar to REM sleep than any other state we tested. Conclusion: Even in patients with coma, temporal dynamics in quantitative EEG features (including the aperiodic components) can be observed in the final hour before death.
ISSN:1095-9572

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