(Medical Xpress) — Johns Hopkins scientists have discovered a protein that appears to play an important regulatory role in deciding whether stem cells differentiate into the cells that make up the brain, as well as countless other tissues. This finding, published in the April Developmental Cell, could eventually shed light on developmental disorders as well as a variety of conditions that involve the generation of new neurons into adulthood, including depression, stroke, and posttraumatic stress disorder.
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Various metabolic risk factors could be linked to diabetes-related pain with major implications for treatment
Around 1 in 50 people in the general population and 1 in 6 of those aged over 40 years experience neuropathy (damage to the nerves of the peripheral nervous system), which can cause numbness, tingling, pain, or weakness. The most common cause of neuropathy is diabetes, and up to half of diabetes patients can be affected. Currently, among the only treatments for neuropathy are glucose control (which often only delays it) and pain management. Yet less than half of patients are treated for pain, despite the availability of many effective therapies . Growing evidence suggests that various metabolic risk factors, including prediabetes, could be linked with neuropathy and thus be targets for new disease-modifying drugs. The issues are discussed in a Review in the June issue of The Lancet Neurology, by Dr Brian C Callaghan and colleagues, all of the University of Michigan, Ann Arbor, MI, USA.
Modeling neurological damage of a traumatic brain injury survivor
In 1848, railroad worker Phineas Gage survived a severe brain injury when a tamping rod shot through his skull, resulting in significant behavioral changes. In a new study, reported May 16 in the open access journal PLoS ONE, researchers have used CT images of his skull in conjunction with MRI and connectomic brain imaging data of living subjects to reconstruct the injury and investigate which regions of the brain were affected to result in the behavioral changes.
Let’s get moving: Unravelling how locomotion starts
(Medical Xpress) — Scientists at the University of Bristol have shed new light on one of the great unanswered questions of neuroscience: how the brain initiates rhythmic movements like walking, running and swimming.
Let there be light: It’s good for our brains
(Medical Xpress) — Swiss scientists have proven that light intensity influences our cognitive performance and how alert we feel, and that these positive effects last until early evening.