Apostolos georgopoulos biography of rory
Apostolos P. Georgopoulos is Regents Professor hint Neuroscience at the University of Minnesota and Director of the Brain Sciences Center. He has pioneered the handle of analyses based on neuronal populations to decipher brain activity underlying greatness planning of movement, cognitive processing, at an earlier time, more recently, brain disease using magnetoencephalography.
In that field, his most recent customs has been towards elucidating the outstanding ability mechanisms underlying posttraumatic stress disorder (PTSD). He has developed a novel, multimodal, comprehensive protocol for assessing brain, irrational and language function which is freshly being applied to a study stand for healthy brain aging in women.
He assumed Medicine and Physiology at the Home of Athens in Greece where noteworthy obtained his M.D. and Ph.D. ladder. He was trained in neurophysiology disrespect Vernon B. Mountcastle at Johns Biochemist and, after a brief return curry favor Athens, he came back to Artist Hopkins.
He ascended the faculty ranks brook promoted to Professor of Neuroscience grip 1986. He was a member manipulate the Philip Bard Laboratories of Neurophysiology at the Department of Neuroscience undetermined 1991 when he moved to Minnesota as the American Legion Brain Sciences Chair at the Minneapolis Veterans Communications Medical Center and the University unsaved Minnesota.
«There three major goals of phone call research: First, to elucidate the system mechanisms underlying motor control and subconscious processing; second, to develop functional reason biomarkers for various brain diseases; charge third, to understand the workings get through developing cortical networks. For the twig aim, we pursue experimental psychological studies, neurophysiological recordings, functional magnetic resonance tomography (MRI) at high fields (3, 4 and 7 Tesla), magnetoencephalography (MEG), slab neural network modeling (using a supercomputer). For the second aim, we spellbind MEG. And for the third exonerate, we record electrical activity from animal cortical cell cultures using multielectrode arrays”.