Continuous EEG Monitoring for Status Epilepticus

Object. The early pathophysiological features of traumatic brain injury observed in the intensive care unit (ICU) have been described in terms of altered cerebral blood flow, altered brain metabolism, and neurochemical excitotoxicity. Seizures occur in animal models of brain injury and in human brain injury. Previous studies of posttraumatic seizures in humans have been based principally on clinical observations without a systematic approach to electroencephalographic (EEG) recording of seizures. The purpose of this study was to determine prospectively the incidence of convulsive and nonconvulsive seizures by using continuous EEG monitoring in patients in the ICU during the initial 14 days postinjury.Methods. Ninety-four patients with moderate-to-severe brain injuries underwent continuous EEG monitoring beginning at admission to the ICU (mean delay 9.6 ± 5.4 hours) and extending up to 14 days postinjury. Convulsive and nonconvulsive seizures occurred in 21 (22%) of the 94 patients, with six of them displaying status epilepticus. In more than half of the patients (52%) the seizures were nonconvulsive and were diagnosed on the basis of EEG studies alone. All six patients with status epilepticus died, compared with a mortality rate of 24% (18 of 73) in the nonseizure group (p < 0.001). The patients with status epilepticus had a shorter mean length of stay (9.14 ± 5.9 days compared with 14 ± 9 days [t-test, p < 0.03]). Seizures occurred despite initiation of prophylactic phenytoin on admission to the emergency room, with maintenance at mean levels of 16.6 ± 2.8 mg/dl. No differences in key prognostic factors (such as the Glasgow Coma Scale score, early hypoxemia, early hypotension, or 1-month Glasgow Outcome Scale score) were found between the patients with seizures and those without.Conclusions. Seizures occur in more than one in five patients during the 1st week after moderate-to-severe brain injury and may play a role in the pathobiological conditions associated with brain injury.

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P11.6 Continuous EEG monitoring to identify awakening predictors from Postanoxic Myoclonic Status Epilepticus

Clinical Neurophysiology ◽

10.1016/s1388-2457(11)60394-5 ◽

2011 ◽

Vol 122 ◽

pp. S111

Author(s):

C. Foresti

Keyword(s):

Status Epilepticus ◽

Eeg Monitoring ◽

Continuous Eeg ◽

Continuous Eeg Monitoring

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The management of Convulsive Refractory Status Epilepticus in adults in the UK: No consistency in practice and little access to continuous EEG monitoring

Seizure ◽

10.1016/j.seizure.2014.11.005 ◽

2015 ◽

Vol 24 ◽

pp. 33-37 ◽

Cited By ~ 10

Author(s):

Mitesh Patel ◽

Manny Bagary ◽

Dougall McCorry

Keyword(s):

Status Epilepticus ◽

Refractory Status Epilepticus ◽

Eeg Monitoring ◽

Refractory Status ◽

Continuous Eeg ◽

Continuous Eeg Monitoring ◽

The Uk

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Status Epilepticus and the Use of Continuous EEG Monitoring in the Intensive Care Unit

CONTINUUM Lifelong Learning in Neurology ◽

10.1212/01.con.0000415428.61277.90 ◽

2012 ◽

Vol 18 ◽

pp. 560-578 ◽

Cited By ~ 3

Author(s):

Thomas P. Bleck

Keyword(s):

Intensive Care Unit ◽

Intensive Care ◽

Status Epilepticus ◽

Eeg Monitoring ◽

Continuous Eeg ◽

Continuous Eeg Monitoring

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Nonconvulsive Status Epilepticus

10.1093/med/9780190228484.003.0021 ◽

2017 ◽

Author(s):

Frank W Drislane ◽

Susan T Herman ◽

Peter W Kaplan

Keyword(s):

Status Epilepticus ◽

Clinical Presentation ◽

Clinical Signs ◽

Nonconvulsive Status Epilepticus ◽

Eeg Monitoring ◽

Continuous Eeg ◽

Absence Status ◽

Continuous Eeg Monitoring ◽

Better Than ◽

Partial Status

The clinical presentation and encephalographic (EEG) findings of nonconvulsive status epilepticus (NCSE) can be complicated, making diagnosis difficult. There are generalized (e.g., absence status) and focal (e.g., aphasic status, complex partial status) forms. Some patients are responsive but have cognitive or other neurologic deficits; others are less responsive or even comatose. Increasingly, the diagnosis of NCSE is considered in intensive care unit patients. Here, without clinical signs of seizures such as convulsions, EEG is critical in diagnosis, but there is uncertainty about which EEG patterns represent seizures and which clinical situations and EEG patterns warrant aggressive treatment. Antiseizure medications are tailored to the NCSE type and the clinical condition. Treatment is often easier for NCSE, and the outcome better, than for convulsive SE, but this is not always true for critically ill patients with NCSE in the ICU, for whom continuous EEG monitoring is often crucial for diagnosis and management.

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Increased incidence and impact of nonconvulsive and convulsive seizures after traumatic brain injury as detected by continuous electroencephalographic monitoring

Neurosurgical FOCUS ◽

10.3171/foc.1999.7.3.1 ◽

1999 ◽

Vol 7 (3) ◽

pp. E1 ◽

Cited By ~ 1

Author(s):

Paul M. Vespa ◽

Marc R. Nuwer ◽

Valeriy Nenov ◽

Elisabeth Ronne-Engstrom ◽

David A. Hovda ◽

...

Keyword(s):

Traumatic Brain Injury ◽

Status Epilepticus ◽

Brain Injury ◽

Scale Score ◽

Brain Injuries ◽

Eeg Monitoring ◽

Continuous Eeg ◽

Nonconvulsive Seizures ◽

Continuous Eeg Monitoring ◽

Convulsive Seizures

Object The early pathophysiological features of traumatic brain injury observed in the intensive care unit (ICU) have been described in terms of altered cerebral blood flow, altered brain metabolism, and neurochemical excitotoxicity. Seizures occur in animal models of brain injury and in human brain injury. Previous studies of posttraumatic seizures in humans have been based principally on clinical observations without a systematic approach to electroencephalographic (EEG) recording of seizures. The purpose of this study was to determine prospectively the incidence of convulsive and nonconvulsive seizures by using continuous EEG monitoring in patients in the ICU during the initial 14 days postinjury. Methods Ninety-four patients with moderate-to-severe brain injuries underwent continuous EEG monitoring beginning at admission to the ICU (mean delay 9.6 ± 5.4 hours) and extending up to 14 days postinjury. Convulsive and nonconvulsive seizures occurred in 21 (22%) of the 94 patients, with six of them displaying status epilepticus. In more than half of the patients (52%) the seizures were nonconvulsive and were diagnosed on the basis of EEG studies alone. All six patients with status epilepticus died, compared with a mortality rate of 18 (24%) of 73 in the nonseizure group (p < 0.001). The patients with status epilepticus had a shorter mean length of stay (9.14 ± 5.9 days compared with 14 ± 9 days (t-test, p < 0.03). Seizures occurred despite initiation of prophylactic phenytoin on admission to the emergency room, with maintenance at mean levels of 16.6 ± 2.8 mg/dl. No differences in key prognostic factors (such as the Glasgow Coma Scale score, early hypoxemia, early hypotension, or 1-month Glasgow Outcome Scale score) were found between the patients with seizures and those without. Conclusions Seizures occur in more than one in five patients during the 1st week after moderate-to-severe brain injury and may play a role in the pathobiological conditions associated with brain injury.

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