Researching the mechanics of how brain wrinkles and folds form may hold the key to understanding how brain disorders occur and identifying new treatment options.
New findings reveal exercise increases levels of endocannabinoids in the body. The findings may explain some of the beneficial effects of exercise on the brain and body.
Researchers explain how stimulating acupressure points on the face and body can help relieve stress.
Neurons in the primary olfactory cortex play a role in encoding spatial maps, a new study reports.
Researchers report Xenobots, a computer-designed, hand-assembled organism can find and gather single cells, and assemble "baby" Xenobots. After a few days, the immature Xanobots can also find cells and replicate themselves.
The fusiform face area, an area of the visual cortex responsible for facial processing, develops much earlier than previously believed.
Harnessing the power of "dancing molecules", researchers have developed a new injectable therapy that repairs tissue damage and reverses paralysis in mouse models. Within four weeks of receiving the injection, paralyzed mice regained the ability to walk.
Brain organoids can be used to study molecular mechanisms that drive brain aging and neurodegenerative disorders. The mini-brains allow for the testing of molecules that could become potential therapeutic treatment options for neurodegenerative diseases.
A new type of neuron in the mammalian retina has been discovered. The new cell, named the Campana cell, appears to relay visual signals to both rod and cone photoreceptors in the retina, however, their precise purpose is not yet known.
A new study links viral infections including mononucleosis and pneumonia experienced during adolescence with an increased risk of developing multiple sclerosis.
In the absence of neural activity, BDNF expression can still be activated. The findings shed light on how therapeutic ketamine used has an antidepressant effect and how it works in both the long and short term.