Study reveals vitamin B12 deficiency doesn't just lead to anemia in children, it also hinders brain development and motor function.
Study reveals, in detail, how COVID-19 infection affects the central nervous system, including inducing brain injury and inflammation consistent with reduced cerebral blood flow.
Fenofibrate, an FDA-approved drug commonly used to treat high cholesterol, activated support cells around sensory neurons in mouse models of spinal cord injury, helping them regrow twice as fast as a placebo.
While incidence rates of malignant brain cancers have declined over recent years, the five-year survival rate for brain cancer patients remains low.
Magnetic microrobots move against fluid flow and precisely deliver substances to neural materials.
At the site of injury, nerves release a protein called CXCL12 which attracts growing nerve fibers and keeps them trapped in place. This prevents the nerve fibers from growing in the correct direction to bridge the injury site.
IgA cells that originate in the gut play a role appear to have neuroprotective properties against diseases associated with neuroinflammation, such as meningitis.
By fusing a cytokine to a blood protein, researchers have developed a new therapy to help treat multiple sclerosis.
Identical twins were more likely to have similar sun-seeking behaviors than non-identical twins, suggesting genetics play a key role in sun-seeking behaviors. Researchers identified five genes associated with sun-seeking behavior, some of which have previously been associated with behavioral traits linked to risk-taking and addiction.
Psychological symptoms, such as depression and anxiety, may be a sign COVID-19 is affecting the central nervous system of patients, a new study reports.
Chandelier cells have an unusual direct method of communication. Unlike other neurons, chandelier cells connect directly to the part of a target neuron that initiates a spike.
From losing the sense of taste or smell to developing an increased risk of stroke, researchers investigate both the known and potential long-term implications of COVID-19 infection in the brain.
