Researchers find that human attention shifts 7–10 times per second due to innate brain rhythms, making us naturally susceptible to distractions.

Scientists have revealed that our attention is on a cycle, shifting seven to ten times per second—a beneficial trait for our ancestors that may now work against us.

An EEG (electroencephalogram) is a painless test that uses small sensors placed on the scalp to measure the brain's ...

A study introduces a scalable 2D human neuron platform to probe how brain-like rhythms emerge and how specific drugs reshape them, aiding epilepsy and autism research.

Scientists have shown for the first time that briefly tuning into a person's individual brainwave cycle before they perform a learning task dramatically boosts the speed at which cognitive skills ...

Figure 1: Cellular thalamic counterparts of electroencephalogram rhythms of relaxed wakefulness and non-rapid eye movement sleep. Here, we provide an up-to-date synopsis of the roles of LTSs and HTSs ...

Li and colleagues developed a deep-learning model to analyze EEG recordings and detect event-level EEG spikes. 2. The model achieved high accuracy and a low false-positive rate, with only 32% of human ...

A growing body of brain-imaging research has mapped, with increasing precision, how the Amazonian psychedelic brew ayahuasca rewires electrical activity across the human brain. The latest contribution ...

The electric brain signals, measured by using EEG, of males and females show differences. The difference can't be detected by visual inspection, not even by the trained eye of a neurologist. A 'deep ...

Newborn brains respond strongly to rhythm changes in music, suggesting that timing expectations develop earlier than melody perception.

Continuous intracranial electroencephalography (cEEG) may help pinpoint optimal timing of diagnostic studies and treatment for patients with focal epilepsy, new research suggests. The findings from a ...