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Brain waves may predict and potentially prevent epilepsy

Date:
December 21, 2017
Source:
American Associates, Ben-Gurion University of the Negev
Summary:
The findings demonstrate how using EEGs to identify changes in brain wave patterns over time can predict which post-injury patients will develop epilepsy.
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Ben-Gurion University of the Negev (BGU) researchers have discovered a promising biomarker for predicting and potentially preventing epileptic seizures in patients with brain injuries using EEG (electroencephalographic) recordings of theta brain waves.

Their findings, published in The Journal of Neuroscience, demonstrate how using EEGs to identify changes in brain wave patterns over time can predict which post-injury patients will develop epilepsy. A neurological disorder that disturbs nerve cell activity in the brain, epilepsy causes seizures during which people experience uncontrolled shaking and movement or loss of consciousness.

"Post-injury epilepsy (PIE) is a devastating, unpreventable consequence of traumatic brain injury (TBI) and stroke, which develops in 10 to 40 percent of survivors months, or even years later," says BGU Professor Alon Friedman, a researcher in the Brain Imaging Research Center and the Zlotowski Center for Neuroscience.

The Epilepsy Foundation estimates more than two million people in the United States have, or have had, some form of epilepsy; many do not respond to medication. In addition to suffering from unpredictable, often difficult to control seizures, patients with PIE are also prone to neuropsychiatric conditions such as cognitive decline and depression.

"While news of promising drugs likely to prevent the onset of epilepsy has emanated from scientific research, we need to first detect reliable biomarkers in the brain that predict which patients will develop the disease," says Prof. Friedman.

Through their research, the BGU team discovered that theta waves, measured as part of an EEG, can predict five different types of post-injury epilepsy in mice and rats. Theta waves generate the rhythmic, neural oscillatory pattern in EEG signals, recorded either from inside the brain or from electrodes glued to the scalp. By tracking continuous recordings, from time of injury through the onset of spontaneous seizures, BGU researchers discovered a specific pattern of theta activity decline over time as signs of epilepsy development. This pattern also seems to be associated with disturbances in sleep-awake cycles.

"These findings hold great promise for expediting targeted clinical investigations of EEG dynamics in human patients, which could lead to new approaches for predicting, and eventually treating, epilepsy as well as other neuropsychiatric complications that develop after brain injuries," says lead study author Dan Z. Milikovsky, an M.D.-Ph.D. student at the BGU Zlotowski Center for Neuroscience.


Story Source:

Materials provided by American Associates, Ben-Gurion University of the Negev. Note: Content may be edited for style and length.


Journal Reference:

  1. Dan Z. Milikovsky, Itai Weissberg, Lyn Kamintsky, Kristina Lippmann, Osnat Schefenbauer, Federica Frigerio, Massimo Rizzi, Liron Sheintuch, Daniel Zelig, Jonathan Ofer, Annamaria Vezzani, Alon Friedman. Electrocorticographic Dynamics as a Novel Biomarker in Five Models of Epileptogenesis. The Journal of Neuroscience, 2017; 37 (17): 4450 DOI: 10.1523/JNEUROSCI.2446-16.2017

Cite This Page:

American Associates, Ben-Gurion University of the Negev. "Brain waves may predict and potentially prevent epilepsy." ScienceDaily. ScienceDaily, 21 December 2017. <www.sciencedaily.com/releases/2017/12/171221122435.htm>.
American Associates, Ben-Gurion University of the Negev. (2017, December 21). Brain waves may predict and potentially prevent epilepsy. ScienceDaily. Retrieved December 21, 2024 from www.sciencedaily.com/releases/2017/12/171221122435.htm
American Associates, Ben-Gurion University of the Negev. "Brain waves may predict and potentially prevent epilepsy." ScienceDaily. www.sciencedaily.com/releases/2017/12/171221122435.htm (accessed December 21, 2024).

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