Latest news and articles about brain from NEX English
Neuroscientists at MIT have revealed that a key feature of adult brains, the dominance of the left hemisphere in language processing, develops by age four. This discovery opens new avenues for understanding human brain development.
A new study shows that the human brain processes the concept of time through three distinct stages, highlighting how we perceive time and its impact on our daily lives. This research comes at a time of increasing interest in how time influences human behavior and cognitive processes.
A new study reveals that the human brain retains its ability to perceive and process speech even during complete anesthesia or loss of consciousness. This discovery opens new avenues for understanding brain functions.
A new study has revealed that yawning plays a crucial role in regulating fluids within the brain. This research sheds light on the physiological effects of yawning and what occurs when one tries to suppress it.
A recent study from Singapore highlights the role of different brain regions in regulating impulsive behavior, enhancing understanding of conditions like ADHD and addiction. This research comes amid growing concerns about the impact of impulsive behaviors on individuals' lives and mental health.
Numerous questions arise regarding the claim that humans only use 10% of their brains. Scientific research suggests that this belief may be a mere myth, as studies show that all parts of the brain have specific functions and are utilized fully even during simple daily activities.
A recent study reveals that daily cannabis use may lead to thinning of the frontal cortex, impacting decision-making and motivation. The findings call for further research to understand long-term effects.
A recent study indicates that engaging in physical activity can reshape neural connections in the brain, particularly for individuals who have experienced negative childhood events. These findings challenge the prevailing notion that the effects of childhood trauma are permanent.
A recent scientific study shows that the precise timing of chemical releases in the brain plays a crucial role in determining whether the brain is oriented towards learning or executing movement. These findings may reshape our understanding of brain function.