Working too much is bad for your health. A new study shows 8.3% of Norwegians are addicted to work to the point where it becomes a health issue.
A new study reports there is a positive link between working memory, physical health and lifestyle.
Study reveals the body produces more cortisol when people are interrupted during work.
Researchers have successfully reproduced the electrical properties of biological neurons onto semiconductor implantable chips. The new artificial neurons could play a critical role in curing chronic neurological diseases.
Researchers believe that if they can unlock the genetic network that allows acorn worms to regenerate body parts, they may be able to regenerate human limbs.
Researchers report a surprising bodily illusion which demonstrates how we can rapidly update assumption about the material qualities of our bodies based on recent multisensory perceptual experience.
Researchers shed new light on neuroplasticity by sparking learning in tadpole brains. They discovered the key to neuroplasticity is how the brain generates new proteins. Findings could help deepen understanding of sensory processing in ASD.
A simple actimeter device is helping researchers better understand sleep duration and quality in humans.
A new study focuses on how children learn to write. Quantifying pen movements revealed a process of learning distinct temporal patterns of movement that differentiate a set of features for each symbol.
Study reveals the French Adrian helmet, a combat helmet from World War 1, performs better than modern designs in protecting from overhead blasts.
Kdm6a, a gene on the X chromosome appears to be associated with the development of autoimmune diseases, such as Multiple Sclerosis. The gene is expressed more in the immune cells of females than males. When Kdm6a was deleted in mouse models of MS, the animals had improved symptoms and reduced inflammation. The findings shed light on why women are more prone to autoimmune diseases than males.
A novel X-ray scintillator-based optogenetics technique allows researchers to control neural function deep within the brain and alter behavioral responses.
