Some of the participants were already implanted with intracranial electrodes for medical monitoring, too, so they were also able to capture electrical signals found deep inside the cortex with ...

In a blacked out room, 20 participants wore head caps studded with electroencephalography (EEG) electrodes to measure the brain’s electrical activity.

For decades, Eve Baer remained convinced that her son, unresponsive after a severe brain injury, was still conscious. Science eventually proved her right.

A research paper by scientists from Tianjin University proposed a noninvasive method for locating and decoding intracranial endogenous signals with high spatiotemporal resolution. The research ...

Discover the future of brain monitoring with a 3D-printable electrode that resembles a single strand of hair. Developed by Penn State University, this innovative device offers reliable EEG signal ...

The future of electroencephalography (EEG) monitoring may soon look like a strand of hair. In place of the traditional metal electrodes, a web of wires and sticky adhesives, a team of researchers ...

Unlike other phenomena studied by science, consciousness cannot be observed externally. “I observe your behavior. I observe your brain, if I do an intracranial EEG [electroencephalography] study.

The paintable electrodes work just as well as the complicated electroencephalography (EEG) sensors used today to monitor the brain for research and for clinical applications.

"Stereo EEG electrodes provide the ability to localize seizure onset with excellent precision as long as the electrode implantation is planned thoroughly and accurately.

For temporal similarity, intracranial EEG from both canines and humans exhibits large fluctuations during epileptic seizures, indicating the transferability of time-domain features across species.