Clinical electrophysiologic assessments and mild traumatic brain injury: State-of-the-science and implications for clinical practice

Arciniegas, David B.

doi:10.1016/j.ijpsycho.2011.03.004

Cited by 78 publications

(66 citation statements)

References 137 publications

(178 reference statements)

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“…30 At this time, qEEG findings cannot definitively rule in or rule out mTBI. This underscores the need for further urgent research on qEEG in mTBI.…”

Section: Validity Of Qeeg In Mtbimentioning

confidence: 99%

Electroencephalography and Quantitative Electroencephalography in Mild Traumatic Brain Injury

Haneef

Levin

Frost

et al. 2013

Journal of Neurotrauma

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Mild traumatic brain injury (mTBI) causes brain injury resulting in electrophysiologic abnormalities visible in electroencephalography (EEG) recordings. Quantitative EEG (qEEG) makes use of quantitative techniques to analyze EEG characteristics such as frequency, amplitude, coherence, power, phase, and symmetry over time independently or in combination. QEEG has been evaluated for its use in making a diagnosis of mTBI and assessing prognosis, including the likelihood of progressing to the postconcussive syndrome (PCS) phase. We review the EEG and qEEG changes of mTBI described in the literature. An attempt is made to separate the findings seen during the acute, subacute, and chronic phases after mTBI. Brief mention is also made of the neurobiological correlates of qEEG using neuroimaging techniques or in histopathology. Although the literature indicates the promise of qEEG in making a diagnosis and indicating prognosis of mTBI, further study is needed to corroborate and refine these methods.

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“…30 At this time, qEEG findings cannot definitively rule in or rule out mTBI. This underscores the need for further urgent research on qEEG in mTBI.…”

Section: Validity Of Qeeg In Mtbimentioning

confidence: 99%

Electroencephalography and Quantitative Electroencephalography in Mild Traumatic Brain Injury

Haneef

Levin

Frost

et al. 2013

Journal of Neurotrauma

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“…It is used clinically for neurologic abnormalities, including seizure detection 1 , localization of seizure foci 2 , and diagnosis of concussion 3,4 . This technique is also widely used to provide fundamental information about the mechanisms of sleep and to diagnose sleep disorders 5,6 .…”

Section: Introductionmentioning

confidence: 99%

Long-term Continuous EEG Monitoring in Small Rodent Models of Human Disease Using the Epoch Wireless Transmitter System

Zayachkivsky

Lehmkuhle

Dudek

2015

JoVE

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Many progressive neurologic diseases in humans, such as epilepsy, require pre-clinical animal models that slowly develop the disease in order to test interventions at various stages of the disease process. These animal models are particularly difficult to implement in immature rodents, a classic model organism for laboratory study of these disorders. Recording continuous EEG in young animal models of seizures and other neurological disorders presents a technical challenge due to the small physical size of young rodents and their dependence on the dam prior to weaning. Therefore, there is not only a clear need for improving pre-clinical research that will better identify those therapies suitable for translation to the clinic but also a need for new devices capable of recording continuous EEG in immature rodents. Here, we describe the technology behind and demonstrate the use of a novel miniature telemetry system, specifically engineered for use in immature rats or mice, which is also effective for use in adult animals.

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“…Based upon the physiological and conductive properties of the intervening scalp and skull, EEG electrodes are thought to record space-averaged electrical potentials representing synaptic activity of 10 8 -10 9 cortical neurons, therefore with poor spatial resolution, but excellent temporal resolution compared to other neuroimaging modalities [2,3]. Current clinical uses of EEG involve spectral analysis via Fourier transform, which can accurately decompose underlying signal frequencies of a stationary signal [1,4,5].…”

Section: Introductionmentioning

confidence: 99%

Multifractal detrended fluctuation analysis of human EEG: preliminary investigation and comparison with the wavelet transform modulus maxima technique

Zorick¹,

Mandelkern²

2013

PsycEXTRA Dataset

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Clinical electrophysiologic assessments and mild traumatic brain injury: State-of-the-science and implications for clinical practice

Cited by 78 publications

References 137 publications

Electroencephalography and Quantitative Electroencephalography in Mild Traumatic Brain Injury

Electroencephalography and Quantitative Electroencephalography in Mild Traumatic Brain Injury

Long-term Continuous EEG Monitoring in Small Rodent Models of Human Disease Using the Epoch Wireless Transmitter System

Multifractal detrended fluctuation analysis of human EEG: preliminary investigation and comparison with the wavelet transform modulus maxima technique

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