Monitoring progenitor cells in the brains of living mice, researchers discover these cells remain highly dynamic in the adult brain. Progenitor cells can transform into cells that insulate nerve fibers and help form scars that aid in tissue repair, study suggests.
Scientists have identified several genes linked to human neurological disorders, such as Alzheimer’s disease, Parkinson’s disease and spinal cord injury, in the sea lamprey. The lamprey has large, identified neurons in its brain and spinal cord, making it an excellent model to study regeneration at the single cell-level.
Researchers have discovered clues to the development of the head at the cellular level, which could point scientists to a better understanding of how organs and birth defects form in humans.
By simulating patterns of microvasculature cell growth and compare the results with real networks grown in lab, researchers hope to direct how they grow into the tiny blood vessels that feed the brain and help people regain functions lost to stroke and disease.
Scientists have observed the neurological mechanism behind temperature-dependent febrile seizures by genetically engineering fruit flies to harbor a mutation analogous to one that causes epileptic seizures in people. Their new study also highlights the first use of genetic engineering to swap a human genetic disease mutation into a directly analogous gene in a fly.
Researchers published a study outlining how a new type of non-invasive brain scan taken immediately after a seizure gives additional insight into possible causes and treatments for epilepsy patients.
Using bioluminescent proteins from a jellyfish, scientists lit up the inside of a neuron, capturing spectacular video footage that shows the movement of proteins throughout the cell. The video offers a rare peek at how proteins, the brain's building blocks, are directed through neurons to renew its structure.
Georgia Tech researchers have created a wireless, musical glove that may improve sensation and motor skills for people with paralyzing spinal cord injury (SCI).
Millions of people suffering from multiple sclerosis, Parkinson's, muscular dystrophy, spinal cord injuries or amputees could soon interact with their computers and surroundings using just their eyes, thanks to a new device that costs less than £40 (~$63).
Researchers from the Huck Institutes’ Center for Cellular Dynamics, led by Center director Melissa Rolls, have found that a neuroprotective...