First author Marleen Tjepkema and senior author Michel van Putten. When patients suffer cardiac arrest, more than half of those who remain comatose never regain consciousness. Early and accurate ...

A study published this week could help doctors to identify patients with brain injuries, in seemingly unresponsive states, who are more likely to recover. In the study, published in the journal Brain ...

Comatose survivors of cardiac arrest didn't benefit from intense treatment of seizure-like activity on continuous electroencephalographic (EEG) monitoring, the TELSTAR trial showed. Between people ...

We may earn a commission from links on this page. When working with patients in a deep coma, doctors interpret a flat EEG reading as a sign that the person is brain-dead and with little chance of ...

When a patient's brain falls completely silent, and electrical recordings devices show a flat line, reflecting a lack of brain activity, doctors consider the patient to have reached the deepest stage ...

Researchers have found brain activity beyond a flat line EEG, which they have called Nu-complexes (from the Greek letter n). According to existing scientific data, researchers and doctors had ...

EEG-measurements enable better prediction of the outcome of a coma that was caused by a lack of oxygen to the brain. This became clear from research of the University of Twente (MIRA) in cooperation ...

EEG-measurements enable better prediction of the outcome of a coma that was caused by a lack of oxygen to the brain. A new method helps to make reliable and correct estimates in about 50% of patients, ...

Patients in a coma are described as being in a state of unconsciousness from which they cannot be woken and are unresponsive. Typical causes of coma include stroke, seizures, severe head injury, ...

Electroencephalogram tests, or EEGs, are commonly used to diagnose epilepsy and sleep disorders. But researchers may have found a new application for the widely used technology: detecting brain ...

Researchers from the University of Montreal and their colleagues have found brain activity beyond a flat line EEG, which they have called Nu-complexes (from the Greek letter Νν). According to existing ...