Movement is a complex process governed by a network of neuronal circuits spread across multiple regions of the nervous system ...

Scientists have enabled a paralyzed man to control a drone using brain-computer interface technology, paving the way for ...

By Dr. Priyom Bose, Ph.D. Slower brain wave patterns and reduced motor cortex activity linked to higher pain sensitivity and ...

Cerebellar patients exhibit various motor impairments, but the sequence of primary and compensatory processes leading to these deficits remains unclear. To investigate this, we reversibly blocked ...

New research reveals how the brain rapidly adapts to sensory changes using a feedback loop between the olfactory cortex and the olfactory bulb.

Device that links neural signals to fine movements provides unprecedented control over speed and direction in a video-game ...

Learn how a brain-computer interface allowed a paralyzed patient to guide a quadcopter through a virtual course by thinking ...

According to the team’s results, the BrainGate array wired directly to motor neurons offered a “sixfold improvement” on the ...

A study of over 1,000 young adults reveals that both recent and heavy lifetime cannabis use reduce brain activity in regions ...

The brain–computer interface allowed the participant to control the drone with six times the accuracy of EEG-based systems.

Participant says controlling the virtual drone felt like playing a musical instrument, evoking activity and socialization.