Putting Electroencephalography (EEG) in the Emergency Department
The proposed study aims to test the impact of microEEG on clinical management (diagnosis and treatment) of emergency department patients with Altered Mental Status (AMS). The study will utilize a portable, wireless, FDA-approved device (microEEG) as the intervention. Patients will be randomized to routine care plus microEEG (experimental arm) or routine care alone (control arm). The investigators hypothesize that incorporating microEEG in the work up of patients with AMS will impact the clinical management of these patients.
|Study Design:||Allocation: Randomized
Intervention Model: Parallel Assignment
Masking: Single Blind (Outcomes Assessor)
Primary Purpose: Diagnostic
|Official Title:||Impact of microEEG on Clinical Management and Outcomes of Emergency Department (ED) Patients With Altered Mental Status|
- Change of ED management [ Time Frame: 4-6 hours of arrival ] [ Designated as safety issue: No ]Primary outcome: Change in management (Diagnosis and Therapy)
- Other Outcomes [ Time Frame: From date of randomization until the date of discharge from the hospital or date of in-hospital death from any cause, whichever comes first, assessed up to 90 days ] [ Designated as safety issue: No ]Secondary Outcome: Length of stay in Hospital, Length of stay in ED, In-hospital mortality, Type of ED Disposition and Type of hospital disposition.
|Study Start Date:||August 2012|
|Study Completion Date:||December 2012|
|Primary Completion Date:||December 2012 (Final data collection date for primary outcome measure)|
Experimental: Routine care plus microEEG
Subjects allocated to this group will undergo an EEG using microEEG device in addition to their routine care. The microEEG device will be used with commercially available electrodes in a headpiece configuration.
Device: microEEG (Bio-Signal microEEG)
At the core, the Bio-Signal microEEG, is an FDA approved miniature, battery-operated, multi-channel, and portable system that records wideband bioelectric signals. The microEEG combines the characteristics of low noise and small size, due to a number of fundamental design characteristics. It records, amplifies, and digitizes the signals at a point very close to the electrodes. This allows the length of the wires between electrodes and the recorder's amplifiers to be very short, keeping them out of the way. Short wires also reduce any inconvenience signal artifacts or other problems that may be associated with the length of the wires. The microEEG's dimensions are about 2"x2"x1".
No Intervention: Routine care only (control group)
Subjects allocated to the control group will receive routine care without microEEG. The treating physician may request a standard EEG, which will be performed by the hospital EEG laboratory, if available.
Approximately, 4% and 10% of emergency department (ED) patients in the United States present with altered mental status (AMS). According to previous studies, close to 30% of AMS cases occur due to neurological etiologies. Among these pathologies are non-convulsive seizures (NCS) and non-convulsive status epilepticus (NCSE). In our previous study, the investigators established that approximately 4% (95% confidence interval, 2-8%) of ED patients with AMS suffer from NCS and NCSE. Our study also revealed that 78% of the ED patient with AMS have some form of EEG abnormality.
NCS and NCSE are difficult to diagnose especially in AMS patients because performing a thorough physical examination or obtaining medical history is often impossible in altered patients. Definitive diagnosis of NCS/NCSE requires electroencephalography (EEG), a test that records brain electrical activity and provides information about the brain function.
Unfortunately, obtaining an EEG in the ED can be challenging. This requires transporting an EEG machine to patient's bedside, where space limitations and presence of variety of monitors and devices, especially in over-crowded EDs render this practice difficult. In many institutions an EEG service is not offered after work hours due to the unavailability of 24/7 EEG technologist coverage and real-time electroencephalographer interpretation. As a result of the aforementioned limitations, ED physicians may refrain from ordering EEG.
The wireless portable EEG device (microEEG) designed by the Bio-Signal Group was designed to address these limitations. With minimal training, ED personnel could use this small, microEEG device to obtain an EEG. The recording then can be wirelessly transmitted to a host computer via a secure network connection to the neurology experts who could interpret the EEG. Incorporating microEEG in the initial workup of patients with AMS could help the ED attending rule out NCS/NCSE and focus on other diagnoses. Alternatively, if the presence of NCS is confirmed by EEG, the treatment could be initiated early and potentially reduce morbidity or mortality.
The investigators hypothesize that incorporating EEG in the work of ED patients with AMS could impact the management(diagnosis and treatment)of these patients and influence their clinical outcome.
Sample size: Our sample size analysis using data one published related study reveled that the study would need 65 patients in each group (total n:130). However, the investigators plan to perform an interim analysis after enrolling half of this target sample and adjust the sample size calculation based on the collected data if necessary.
Please refer to this study by its ClinicalTrials.gov identifier: NCT01671475
|United States, New York|
|Kings County Hospital Center|
|Brooklyn, New York, United States, 11203|
|SUNY Downstate Medical Center|
|Brookyln, New York, United States, 11203|
|Principal Investigator:||Shahriar Zehtabchi, MD||Physician|