Binyam Nardos
Washington University in St. Louis
10 Papers
14 Citations
Binyam Nardos is an academic researcher from Washington University in St. Louis. The author has contributed to research in topics: Resting state fMRI & Cognition. The author has an hindex of 8, co-authored 8 publications. Previous affiliations of Binyam Nardos include University of Washington.
Chat about Author
Papers
Prediction of Individual Brain Maturity Using fMRI
Nico U.F. Dosenbach,Binyam Nardos,Alexander L. Cohen,Damien A. Fair,Jonathan D. Power,Jessica A. Church,Steven M. Nelson,Gagan S. Wig,Gagan S. Wig,Alecia C. Vogel,Christina N. Lessov-Schlaggar,Kelly Anne Barnes,Joseph W. Dubis,Eric Feczko,Rebecca S. Coalson,John R. Pruett,M Deanna,Steven E. Petersen,Bradley L. Schlaggar +18 more
TL;DR: Support vector machine-based multivariate pattern analysis extracts sufficient information from fcMRI data to make accurate predictions about individuals’ brain maturity across development, and prediction of individual brain maturity as a functional connectivity maturation index is allowed.
Atypical Resting‐State Functional Connectivity of Affective Pain Regions in Chronic Migraine
Todd J. Schwedt,Bradley L. Schlaggar,Soe Mar,Tracy S. Nolan,Rebecca S. Coalson,Binyam Nardos,Tammie L.S. Benzinger,Linda J. Larson-Prior +7 more
TL;DR: Atypical resting‐state functional connectivity of affective pain‐processing brain regions may associate with chronic migraineurs' painful intolerances to somatosensory, visual, olfactory, and auditory stimuli during and between migraine attacks.
Examining mechanisms of brain control of bladder function with resting state functional connectivity MRI.
Rahel Nardos,Rahel Nardos,William Thomas Gregory,Christine Krisky,Amanda Newell,Binyam Nardos,Bradley L. Schlaggar,Damien A. Fair +7 more
TL;DR: The objective of this study is to identify the brain mechanisms involved in bladder control and to propose a new drug for this purpose which is currently under development.
35
Response monitoring in children with phenylketonuria.
Gabriel C. Araujo,Shawn E. Christ,Robert D. Steiner,Dorothy K. Grange,Binyam Nardos,Robert C. McKinstry,Desirée A. White +6 more
TL;DR: The authors examined posterror reaction time (RT) in 24 children with well-controlled, early treated PKU and 25 typically developing control children using a go/no-go task and showed that RTs of both controls and children with PKU slowed significantly following the commission of errors.
Task-Evoked BOLD Responses Are Normal in Areas of Diaschisis After Stroke
TL;DR: The mechanism underlying the BOLD signal, which includes a mismatch between neuronally driven increases in blood flow and a corresponding increase in oxygen use, appears to be intact in areas of chronic diaschisis.