Preliminary experience with point-of-care EEG in post-cardiac arrest patients

doi:10.1016/j.resuscitation.2018.12.022

. 2019 Feb:135:98-102.

doi: 10.1016/j.resuscitation.2018.12.022. Epub 2018 Dec 31.

Preliminary experience with point-of-care EEG in post-cardiac arrest patients

Affiliations

¹ Department of Emergency Medicine, University of Pittsburgh, United States. Electronic address: rittjc@upmc.edu.
² Department of Emergency Medicine, University of Pittsburgh, United States.
³ Department of Neurology, University of Pittsburgh, United States.
⁴ Department of Critical Care Medicine, University of Pittsburgh, United States.
⁵ Department of Emergency Medicine, University of Pittsburgh, United States; Department of Critical Care Medicine, University of Pittsburgh, United States.

PMID: 30605711
PMCID: PMC7155922
DOI: 10.1016/j.resuscitation.2018.12.022

Preliminary experience with point-of-care EEG in post-cardiac arrest patients

Jon C Rittenberger et al. Resuscitation. 2019 Feb.

. 2019 Feb:135:98-102.

doi: 10.1016/j.resuscitation.2018.12.022. Epub 2018 Dec 31.

Affiliations

¹ Department of Emergency Medicine, University of Pittsburgh, United States. Electronic address: rittjc@upmc.edu.
² Department of Emergency Medicine, University of Pittsburgh, United States.
³ Department of Neurology, University of Pittsburgh, United States.
⁴ Department of Critical Care Medicine, University of Pittsburgh, United States.
⁵ Department of Emergency Medicine, University of Pittsburgh, United States; Department of Critical Care Medicine, University of Pittsburgh, United States.

PMID: 30605711
PMCID: PMC7155922
DOI: 10.1016/j.resuscitation.2018.12.022

Abstract

Objective: Abnormal electroencephalography (EEG) patterns are common after resuscitation from cardiac arrest and have clinical and prognostic importance. Bedside continuous EEGs are not available in many institutions. We tested the feasibility of using a point-of-care system for EEG acquisition.

Methods: We prospectively enrolled a convenience sample of post-cardiac arrest patients between 9/2015-1/2017. Upon hospital arrival, a limited EEG montage was applied. We tested both continuous EEG (cEEG) and this point-of-care EEG (eEEG). A board-certified epileptologist and a board-certified neurointensivist jointly reviewed all EEGs. Cohen's kappa coefficient evaluated agreement between eEEG and cEEG and Fisher's exact test evaluated their associations with survival to hospital discharge and proximate cause of death.

Results: We studied 95 comatose post-cardiac arrest patients. Mean age was 59 (SD17) years. Most (61%) were male, few (N = 22; 23%) demonstrated shockable rhythms, and PCAC IV illness severity was present in 58 (61%). eEEG was interpretable in 57 (60%) subjects. The most common eEEG interpretations were: continuous (21%), generalized suppression (14%), burst-suppression (12%) and burst-suppression with identical bursts (10%). Seizures were detected in 2 eEEG subjects (2%). No patient with seizure or burst-suppression with identical bursts survived. cEEG demonstrated generalized suppression (31%), burst-suppression with identical bursts (27%), continuous (18%) and seizure (4%). The eEEG and cEEG demonstrated fair agreement (kappa = 0.27). Neither eEEG nor cEEG was associated with survival (p = 0.19; p = 0.11) or proximate cause of death (p = 0.14; p = 0.8) CONCLUSIONS: eEEG is feasible, although artifact often precludes interpretation. eEEG is fairly associated with cEEG and may facilitate post-cardiac arrest care.

Keywords: Cardiac arrest; EEG; Outcomes; Prognostication; Resuscitation.

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References

1. Rittenberger JC, Holm MB, Guyette FX, Tisherman SA, Callaway CW. An early, novel illness severity score to predict outcome after cardiac arrest. Resuscitation 2011;82:1399–1404. - PMC - PubMed
1. Rittenberger JC, Popescu A, Guyette FX, Callaway CW. Frequency and Timing of Nonconvulsive Status Epilepticus in Comatose Post-Cardiac Arrest Subjects Treated with Hypothermia. Neurocrit Care 2012;16:114–122. - PMC - PubMed
1. Claassen J, Goldstein JN. Emergency Neurological Life Support: Status Epilepticus. Neurocritical care. 2017;27:152–8. - PubMed
1. Young GB Jordan KG, Doig GS. Assessment of nonconvulsive seizures in the intensive care unit using continuous EEG monitoring: and investigation of variables associated with mortality. Neurology 1996;47:83–89. - PubMed
1. Elmer J, Rittenberger JC, Faro J, Molyneaux B, Popescu A, Callaway CW. Clinically distinct electroencephalographic phenotypes of early myoclonus after cardiac arrest. Annals of neurology. 2016;80:175–84. - PMC - PubMed

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[1] Rittenberger JC, Holm MB, Guyette FX, Tisherman SA, Callaway CW. An early, novel illness severity score to predict outcome after cardiac arrest. Resuscitation 2011;82:1399–1404. - PMC - PubMed

[2] Rittenberger JC, Holm MB, Guyette FX, Tisherman SA, Callaway CW. An early, novel illness severity score to predict outcome after cardiac arrest. Resuscitation 2011;82:1399–1404. - PMC - PubMed

[3] Rittenberger JC, Popescu A, Guyette FX, Callaway CW. Frequency and Timing of Nonconvulsive Status Epilepticus in Comatose Post-Cardiac Arrest Subjects Treated with Hypothermia. Neurocrit Care 2012;16:114–122. - PMC - PubMed

[4] Rittenberger JC, Popescu A, Guyette FX, Callaway CW. Frequency and Timing of Nonconvulsive Status Epilepticus in Comatose Post-Cardiac Arrest Subjects Treated with Hypothermia. Neurocrit Care 2012;16:114–122. - PMC - PubMed

[5] Claassen J, Goldstein JN. Emergency Neurological Life Support: Status Epilepticus. Neurocritical care. 2017;27:152–8. - PubMed

[6] Claassen J, Goldstein JN. Emergency Neurological Life Support: Status Epilepticus. Neurocritical care. 2017;27:152–8. - PubMed

[7] Young GB Jordan KG, Doig GS. Assessment of nonconvulsive seizures in the intensive care unit using continuous EEG monitoring: and investigation of variables associated with mortality. Neurology 1996;47:83–89. - PubMed

[8] Young GB Jordan KG, Doig GS. Assessment of nonconvulsive seizures in the intensive care unit using continuous EEG monitoring: and investigation of variables associated with mortality. Neurology 1996;47:83–89. - PubMed

[9] Elmer J, Rittenberger JC, Faro J, Molyneaux B, Popescu A, Callaway CW. Clinically distinct electroencephalographic phenotypes of early myoclonus after cardiac arrest. Annals of neurology. 2016;80:175–84. - PMC - PubMed

[10] Elmer J, Rittenberger JC, Faro J, Molyneaux B, Popescu A, Callaway CW. Clinically distinct electroencephalographic phenotypes of early myoclonus after cardiac arrest. Annals of neurology. 2016;80:175–84. - PMC - PubMed

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Preliminary experience with point-of-care EEG in post-cardiac arrest patients

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Preliminary experience with point-of-care EEG in post-cardiac arrest patients

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