G
Gadi Goelman
Researcher at Hebrew University of Jerusalem
Publications - 45
Citations - 975
Gadi Goelman is an academic researcher from Hebrew University of Jerusalem. The author has contributed to research in topics: Functional magnetic resonance imaging & Basal ganglia. The author has an hindex of 18, co-authored 42 publications receiving 904 citations. Previous affiliations of Gadi Goelman include New York University.
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Complex denoising of MR data via wavelet analysis: application for functional MRI.
Saleem Zaroubi,Gadi Goelman +1 more
TL;DR: A fast post-processing method for noise reduction of MR images, termed complex-denoising, is presented, based on shrinking noisy discrete wavelet transform coefficients via thresholding, and it can be used for any MRI data-set with no need for high power computers.
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Exemplar Selectivity Reflects Perceptual Similarities in the Human Fusiform Cortex
Ido Davidesco,Elana Zion-Golumbic,Stephan Bickel,Michal Harel,David M. Groppe,Corey J. Keller,Catherine A. Schevon,Guy M. McKhann,Robert R. Goodman,Gadi Goelman,Charles E. Schroeder,Ashesh D. Mehta,Rafael Malach +12 more
TL;DR: The results reveal a neuronal substrate for the establishment of perceptual distance among faces in the human brain and imply that face neurons are anatomically grouped according to well-defined functional principles, such as perceptual similarity.
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Hebrew brain vs. english brain: Language modulates the way it is processed
TL;DR: It is shown that while in the bilingual brain both languages involve a common neural circuitry in processing morphological structure, this activation is significantly modulated by the different aspects of language.
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Manganese‐enhanced MRI in a rat model of Parkinson's disease
TL;DR: To measure intra‐ and inter‐hemispheric connectivity within the basal ganglia (BG) nuclei in healthy and in unilateral 6‐hydroxydopamine (6‐OHDA) Parkinson disease rat model in order to test the BG interhemispheres connectivity hypothesis.
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Bilateral overactivation of the sensorimotor cortex in the unilateral rodent model of Parkinson's disease - a functional magnetic resonance imaging study.
TL;DR: The finding that an increased cortical activity in the sensorimotor cortex of PD rats compared with sham‐operated or normal rats was found suggests that the mutual influence of the two hemispheres is important in the pathophysiology of the BG–cortex circuit and might be crucial in predicting treatments