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20182017

Study: Neurons in the Brain Work as a Team to Guide Movement of Arms, Hands

Tuesday, December 11, 2018

Hands waving in the skyThe apparent simplicity of picking up a cup of coffee or turning a doorknob belies the complex sequence of calculations and processes that the brain must undergo to identify the location of an item in space, move the arm and hand toward it, and shape the fingers to hold or manipulate the object. New research, published today in the journal Cell Reports, reveals how the nerve cells responsible for motor control modify their activity as we reach and grasp for objects. These findings upend the established understanding of how the brain undertakes this complex task and could have implications for the development of neuro-prosthetics.

"This study shows that activity patterns in populations of neurons shift progressively during the course of a single movement," said Marc Schieber, M.D., Ph.D., a professor in the University of Rochester Medical Center (URMC) Department of Neurology and the Del Monte Institute for Neuroscience and a co-author of the study. "Interpreting these shifts in activity that allow groups of neurons to work together to perform distinctive and precise movements is the first step in understanding how to harness this information for potential new therapies."

Read More: Study: Neurons in the Brain Work as a Team to Guide Movement of Arms, Hands

Kevin Mazurek Receives CTSI Career Development Award

Friday, June 15, 2018

The University's Clinical and Translational Science Institute has selected the recipients of its Career Development Award, which provides two years of support to help early career scientists transition to independent careers as clinical and translational investigators. This year's awardees will study suicide prevention among Hispanic populations and how the brain controls voluntary movements.

Kevin A. Mazurek, research assistant professor of neuroscience, whose project is "Determining how Cortical Areas Communicate Information to Perform Voluntary Movements." Mazurek, whose primary mentor is John Foxe, professor of neuroscience, received his bachelor's degree in electrical engineering from Brown University in 2008 and his doctorate in electrical engineering from Johns Hopkins University in 2013. He studies the neural control of voluntary movements in order to develop rehabilitative solutions that can restore function to individuals with neurologic diseases by effectively bypassing impaired or damaged neural connections.

The Career Development program is supported by a KL2 award from the National Center for Advancing Translational Sciences of the National Institutes of Health. The UR CTSI Career Development Award Program releases its request for applications each September with applications due in November.

URMC Researcher Featured in Academic Stories

Tuesday, May 29, 2018

Kevin Mazurek, PhD recently gave an interview for the online Academic Stories blog, entitled "Researchers Discover How to Inject Instructions into the Premotor Cortex".

"Thanks to our brain's complex network of connections, we are able to effortlessly move through and react to the world around us. But for people with strokes or traumatic brain injuries, these connections are disrupted making some basic functions challenging. Kevin Mazurek and his mentor Marc Schieber at the University of Rochester have made a discovery with the potential to help restore neural connections in patients. They have found a way to "inject" information directly into the premotor cortex of two rhesus monkeys, bypassing the visual centres."

Academic Stories, a division of Academic Media Group, aims to inspire more people to pursue academic careers by sharing groundbreaking research and the people and places that make it possible. Academic Stories brings their stories to a larger audience in an accessible way.

Read More: URMC Researcher Featured in Academic Stories

Rochester Research Cited in Psychology Today Article

Monday, May 14, 2018

Work in the Schieber lab by Marc Schieber and Kevin Mazurek was included in "The Sensory Revolution" in Psychology Today.

Our senses are under constant threat from the stimuli, routines, and ailments of the modern world. Fortunately, neuroscience is inspiring remedies that not only restore sensory input but radically alter it.

Sometimes sensation makes its way to the brain but doesn't alter behavior because the brain's wiring fails, as in stroke or localized brain damage. Neuroscientists Marc Schieber and Kevin Mazurek, both at the University of Rochester, have demonstrated a method that might bypass these downed lines. They've trained two monkeys to perform four instructed actions, such as turning a knob or pressing a button. But that instruction takes the form of an electrical signal sent to electrodes in the monkeys' premotor cortex, an area between the sensory cortices and the motor cortex, which controls muscle movement. Even without any sensory instruction, the monkeys were nearly 100 percent accurate at interpreting the signal and performing the correct action.

Read More: Rochester Research Cited in Psychology Today Article

Schieber lab publishes paper in Journal of Neuroscience

Wednesday, May 2, 2018

Kevin Mazurek, Adam Rouse, and Marc Schieber published a manuscript in the Journal of Neuroscience on May 2, 2018 entitled "Mirror Neuron Populations Represent Sequences of Behavioral Epochs During Both Execution and Observation"

Read More: Schieber lab publishes paper in Journal of Neuroscience

Scholarship Award Winner: Kevin Mazurek

Monday, April 30, 2018

Kevin Mazurek received a Scholarship Award from the Neural Control of Movement (NCM) Society to present an individual presentation at the NCM Annual Meeting held in Santa Fe, New Mexico (April 30 - May 4).

Read More: Scholarship Award Winner: Kevin Mazurek

Dr. Mazurek receives award at national convention

Saturday, April 21, 2018

Kevin Mazurek received a Future Clinical Researcher Scholarship Award from the American Academy of Neurology (AAN) to present a platform presentation at the AAN Annual Meeting held in Los Angeles, California (April 21 - 27).

Read More: Dr. Mazurek receives award at national convention

New Career Development Awardees to Study Suicide Prevention and Neural Processing

Monday, March 12, 2018

Kevin Mazurek, Ph.D., postdoctoral fellow in the Department of Neurology at URMC, will investigate how areas of the brain communicate information about how and why movements are performed and how neurologic diseases such as epilepsy affect this communication.

Electrophysiological techniques allow for investigating which cortical areas communicate information related to the performance of voluntary movements. For his KL2 project, Dr. Mazurek will analyze changes in neural communication as participants perform the same hand and finger movements when instructed with different sensory cues (e.g. visual, auditory). He will compare healthy individuals and individuals with intractable epilepsy to identify changes in neural communication pathways. Identifying the exact nature in which epileptic activity affects cortical communication could lead to a biomarker for the appropriate connections to target for rehabilitative treatment.