News & World Report and Princeton Review “best colleges” lists. Ohio Wesleyan is featured in the book “Colleges That Change Lives,” listed on the latest President’s Higher Education Community Service Honor Roll with Distinction, and included in the U.S. Ohio Wesleyan combines a challenging, internationally focused curriculum with off-campus learning and leadership opportunities to connect classroom theory with real-world experience. Located in Delaware, Ohio, the private university offers 87 undergraduate majors and competes in 23 NCAA Division III varsity sports. Learn more about Fink and Ohio Wesleyan’s neuroscience program at Learn more about the university’s annual 10-week Summer Science Research Program at Founded in 1842, Ohio Wesleyan University is one of the nation’s premier liberal arts universities. In addition to epilepsy research, Fink also is interested in the role neuronal synchronization plays in generating brain rhythms. If so, the rhythm – known as a high-frequency oscillation – eventually could play a more prominent role in predicting and controlling the disorder, which impacts approximately 1 percent of the world’s population.įink earned his undergraduate degree in physics at Taylor University and both his master’s degree in electrical engineering and his doctorate in physics at the University of Michigan. His grant-funded project, “Characterizing High-Frequency Oscillations as an Epilepsy Biomarker with Big Data Tools,” involves using a computational model of the hippocampus to investigate whether a specific type of brain rhythm indicates the presence of epilepsy. “The grant will provide funding for an OWU student to conduct summer research with me for the next five years.”įink said his $61,000 NIH grant also will allow the students to travel with him to present their findings at professional scientific conferences. “In the long term, the hope is that this line of research will eventually enable the prediction of epileptic seizures, thereby helping to improve the lives of people with epilepsy,” Fink said. ![]() Stacey, M.D., Ph.D., of the University of Michigan, to investigate an abnormal brain rhythm often observed in people with epilepsy, a chronic medical condition characterized by recurring seizures. Fink, Ph.D., an assistant professor of neuroscience and of physics and astronomy, has earned National Institutes of Health funding to support his research into epilepsy.įink, who joined the Ohio Wesleyan faculty in 2013, will collaborate with neurologist William C. Neural Network Modulation, Dynamics, and Plasticity, Christian G.Ohio Wesleyan Professor Earns NIH Grant to Study Epilepsyįunding to Support Summer Research with OWU Students for Next Five YearsĭELAWARE, Ohio – Ohio Wesleyan University’s Christian G. Fink, Geoffrey Murphy, Michal Zochowski, and Victoria Booth Fink, Michael Leone, Brandon Schurter, Benjamin Letson, Victoria Booth, and Michael ZochowskiĪ Dynamical Role for Acetylcholine in Synaptic Renormalization, Christian G. ![]() Synchronization Properties of Heterogeneous Neuronal Networks with Mixed Excitability Type, Christian G. ![]() Fink, Stephen Gliske, Nicholas Catoni, and William Stacey Fink Link Emergence of Narrowband High Frequency Oscillations from Asynchronous, Uncoupled Neural Firing, Christian G. Network Mechanisms Generating Abnormal and Normal Hippocampal High Frequency Oscillations: A Computational Analysis, Christian G. An Algebra-Based Introductory Computational Neuroscience Course with Lab, Christian G. Fink, Sima Mofakham, Victoria Booth, and Michael Zochowski Interplay Between Excitability Type and Distributions of Neuronal Connectivity Determines Neuronal Network Synchronization, Christian G. Simulating Synchronization in Neuronal Networks, Christian G. Understanding Spatial and Temporal Patterning of Astrocyte Calcium Transients Via Interactions Between Network Transport and Extracellular Diffusion, Christian G. Fink, Stephen Gliske, William Stacey, Eugene Lim, and Katherine Holman FinkĮmergence of Narrowband High Frequency Oscillations from Asynchronous, Uncoupled Neural Firing, Christian G. ![]() An Algebra-Based Introductory Computational Neuroscience Course with Lab, Christian G.
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