Noninvasive, automated and reliable detection of spreading depolarizations in severe traumatic brain injury using scalp EEG

Abstract: Background: Noninvasive detection of spreading depolarizations (SD), as a potentially treatable mechanism of worsening brain injuries after traumatic brain injuries (TBI), has remained elusive. Current methods to detect SDs are based on intracranial recording, an invasive method with limited spatial coverage. Less invasive methods to diagnose SD are needed to improve generalizability and application of this emerging science and to guide worsening brain injury treatments. Here, we demonstrate, for the first tim… Show more

“…Moreover, real-time brain activity data can be recorded from EEG signals, providing valuable information for neuroscience research, clinical diagnosis and treatment 9,10 . In epilepsy research, analyzing the characteristics of different types of seizures in EEG recordings helps doctors determine the specific type of epilepsy 11,12 .…”

Multichannel microneedle dry electrode patches for minimally invasive transdermal recording of electrophysiological signals

“…Moreover, real-time brain activity data can be recorded from EEG signals, providing valuable information for neuroscience research, clinical diagnosis and treatment 9,10 . In epilepsy research, analyzing the characteristics of different types of seizures in EEG recordings helps doctors determine the specific type of epilepsy 11,12 .…”

Multichannel microneedle dry electrode patches for minimally invasive transdermal recording of electrophysiological signals