A new study by researchers at Indiana University-Purdue University Columbus and Pace University is critical of the widespread use of computerized neuropsychological tests (CNT) in decisions regarding when athletes can return to play after suffering a concussion.
Author:
Study shows Alzheimer’s disease may spread by ‘jumping’ from one brain region to another
For decades, researchers have debated whether Alzheimer’s disease starts independently in vulnerable brain regions at different times, or if it begins in one region and then spreads to neuroanatomically connected areas. A new study by Columbia University Medical Center (CUMC) researchers strongly supports the latter, demonstrating that abnormal tau protein, a key feature of the neurofibrillary tangles seen in the brains of those with Alzheimer’s, propagates along linked brain circuits, “jumping” from neuron to neuron.
Study of Alzheimer’s-related protein in healthy adults may shed light on earliest signs of disease
Researchers from the Center for Vital Longevity at the University of Texas at Dallas and UT Southwestern Medical Center have completed a large-scale neuroimaging study of healthy adults from age 30 to 90 that measured beta-amyloid protein—a substance whose toxic buildup in the brain is a diagnostic marker for Alzheimer’s disease.
Dyslexia-linked genetic variant decreases midline crossing of auditory pathways
Finnish scientists have found that a rare dyslexia-linked genetic variant of the ROBO1 gene decreases normal crossing of auditory pathways in the human brain. The weaker the expression of the gene is, the more abnormal is the midline crossing. The results link, for the first time, a dyslexia-susceptibility gene to a specific sensory function of the human brain. This collaborative study between Aalto University and University of Helsinki in Finland and the Karolinska Insitutet in Sweden was published in the Journal of Neuroscience.
Why the brain is more reluctant to function as we age
New findings, led by neuroscientists at the University of Bristol and published this week in the journal Neurobiology of Aging, reveal a novel mechanism through which the brain may become more reluctant to function as we grow older.