(Medical Xpress) — Johns Hopkins neurologists report success with a new means of getting rid of potentially lethal blood clots in the brain safely without cutting through easily damaged brain tissue or removing large pieces of skull. The minimally invasive treatment, they report, increased the number of patients with intracerebral hemorrhage (ICH) who could function independently by 10 to 15 percent six months following the procedure.
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New procedure repairs severed nerves in minutes, restoring limb use in days or weeks
American scientists believe a new procedure to repair severed nerves could result in patients recovering in days or weeks, rather than months or years. The team used a cellular mechanism similar to that used by many invertebrates to repair damage to nerve axons. Their results are published today in the Journal of Neuroscience Research.
Brains of addicts are inherently abnormal: study (Update)
(Medical Xpress) — Researchers funded by the Medical Research Council (MRC) at the University of Cambridge have identified a brain abnormality which is found in drug-dependent individuals as well as their siblings who have had no history of drug addiction. The brain abnormality identified by the researchers makes it more difficult for individuals to exercise self-control.
Untangling the mysteries of Alzheimer’s
One of the most distinctive signs of the development of Alzheimer’s disease is a change in the behavior of a protein that neuroscientists call tau. In normal brains, tau is present in individual units essential to neuron health. In the cells of Alzheimer’s brains, by contrast, tau proteins aggregate into twisted structures known as “neurofibrillary tangles.” These tangles are considered a hallmark of the disease, but their precise role in Alzheimer’s pathology has long been a point of contention among researchers.
Could brain size determine whether you are good at maintaining friendships?
(Medical Xpress) — Researchers are suggesting that there is a link between the number of friends you have and the size of the region of the brain known as the orbital prefrontal cortex that is found just above the eyes.