Continuously recording the brain's electrical signals and examining how those impulses evolve over time is a more reliable way to identify infants at risk for brain injury, compared with doing ...

Why Use EEG in the Critically Ill? Wilner: Thanks for joining us. I’m really glad we have this opportunity because this is a question that’s been bothering me about the application of resources. A ...

Pediatric neurocritical care has evolved into a specialised field dedicated to the intensive management of critically ill children with acute neurological conditions. A cornerstone of this management ...

The Australian-developed Minder system is an implantable device for continuous monitoring of brain activity in patients with epilepsy, developed to address the shortcomings in current ...

DENVER -- A high seizure burden derived by an artificial intelligence (AI) algorithm was associated with worse outcomes, a retrospective analysis showed. Hospitalized patients who had a high seizure ...

CeriBell Inc. CBLL recently announced that the FDA has granted Breakthrough Device Designation for its Large Vessel Occlusion ...

Researchers have created a hairlike device for long-term, non-invasive monitoring of the brain's electrical activity. The lightweight and flexible electrode attaches directly to the scalp and delivers ...

Ceribell announced today that the FDA granted breakthrough device designation for its large vessel occlusion (LVO) stroke ...

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 from ...