Ć˝ĚŘÎ岻ÖĐ

Amir Shmuel, PhD

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Courriel :Ěýamir.shmuel [at] mcgill.ca (Amir Shmuel)
TĂ©l : 514-398-2192
Site web :Ěý
Publications récentes : ,
Affiliations académiques : Neurologie et Neurochirurgie
Groupes de rechercheĚý:ĚýNeuro-imagerie et neuro-informatique,ĚýCircuits neuronaux


La recherche d’Amir Shmuel a deux objectifs. L’un est de comprendre les mĂ©canismes neuronaux sous-jacents aux signaux en imagerie cĂ©rĂ©brale fonctionnelle et d’évaluer dans quelle mesure ces signaux indiquent l’activitĂ© neuronale mesurĂ©e localement. Le second objectif est d’élucider les principes et processus que le cortex cĂ©rĂ©bral utilise pour analyser l’information visuelle et produire une perception visuelle cohĂ©rente. L’approche intĂ©grative privilĂ©giĂ©e au laboratoire d’Amir Shmuel combine des techniques d’imagerie et d’enregistrement Ă©lectriqueĚý: imagerie par rĂ©sonance magnĂ©tique fonctionnelle (IRMf), imagerie optique utilisant des signaux intrinsèques et des colorants sensibles Ă  la tension, enregistrements neurophysiologiques multivoies, et combinaison simultanĂ©e de neurophysiologie et d’IRMf. Ensemble, ces techniques couvrent de multiples niveaux de rĂ©solution spatiale et temporelle. Les signaux de l’activitĂ© du cerveau obtenus par des mĂ©thodes d’imagerie non effractives Ă  grande Ă©chelle sont comparĂ©s Ă  l’activitĂ© d’ensembles de neurones observĂ©e par imagerie optique, ainsi qu’à l’activitĂ© Ă©lectrique enregistrĂ©e dans des groupes de neurones et des neurones individuels.

SĂ©lection de publications:Ěý

Chaimow D, Yacoub E, UÄźurbil K, Shmuel A (2017) Spatial specificity of the functional MRI blood oxygenation response relative to neuronal activity. NeuroImage, accepted. ISSN 1053-8119, .

Chaimow D, UÄźurbil K, Shmuel A (2017) Optimization of functional MRI for detection, decoding and high-resolution imaging of the response patterns of cortical columns. NeuroImage, accepted. doi: 10.1016/j.neuroimage.2017.04.011.

Kropf P, Shmuel A (2016) 1-D current-source density (CSD) estimation in inverse theory: a unified framework for higher-order spectral regularization of quadrature and expansion type CSD methods. Neural Computation, 28:1305-1355.

Dawson D, Lewis LB, Carbonell F, Mendola JD, Shmuel A (2016) Partial-correlation based retinotopically organized resting-state functional connectivity within and between areas of the visual cortex reflects more than cortical distance. Brain Connectivity, 6(1):57-75. doi: 10.1089/brain.2014.0331.

Sotero RC, Bortel A, Na’aman S, Mocanu MV, Kropf P, Villeneuve M, Shmuel A (2015) Laminar distribution of phase-amplitude coupling of spontaneous current sources and sinks. Front. Neurosci. 9:454. doi: 10.3389/fnins.2015.00454.

Buxton RB, Griffeth VE, Simon AB, Moradi F, Shmuel A (2014) Variability of the coupling of blood flow and oxygen metabolism responses in the brain: a problem for interpreting BOLD studies but potentially a new window on the underlying neural activity. Front Neurosci., 8:139. Corrigendum DOI: 10.3389/fnins.2014.00241.

Carbonell F, Bellec P, Shmuel A (2014) Quantification of the impact of a confounding variable on functional connectivity confirms anti-correlated networks in the resting-state. Neuroimage, 86:343-53.

Dawson D, Cha K, Lewis LB, Mendola JD, Shmuel A (2013) Evaluation and calibration of functional network modeling methods based on known anatomical connections. Neuroimage, 67: 331–343.

Carbonell F, Bellec P, Shmuel A (2012) Global and system-specific resting-state BOLD fluctuations are uncorrelated: principal component analysis reveals anti-correlated networks. Brain Connectivity, 1 (6): 496-510. 10.

Chaimow D, Yacoub E, Ugurbil K, Shmuel A (2011) Modeling and analysis of mechanisms underlying fMRI-based decoding of information conveyed in cortical columns. Neuroimage, 56 (2): 627-642.

Sotero RC, Bortel A, Martínez-Cancino R, Neupane S, O’Connor P, Carbonell F, Shmuel A (2010) Anatomically-constrained effective connectivity among layers in a cortical column modeled and estimated from local field potentials. Journal of Integrative Neuroscience, 9: 355–379. 12.

Shmuel A, Chaimow D, Raddatz G, Ugurbil K, Yacoub E (2010) Mechanisms underlying decoding at 7 T: Ocular dominance columns, broad structures, and macroscopic blood vessels in V1 convey information on the stimulated eye. Neuroimage, 49:1957–1964.

Shmuel A, Leopold DA (2008) Neuronal correlates of spontaneous fluctuations in fMRI signals in monkey visual cortex: implications for functional connectivity at rest. Human Brain Mapping, 29:751-761.

Keliris G*, Shmuel A* (* co-first authors), Ku SP, Pfeuffer J, Oeltermann A, Steudel T, Ku SP, Logothetis NK (2007), Robust controlled functional MRI in alert monkeys at high magnetic field: effects of jaw and body movements. NeuroImage, 36(3):550-570.

Yacoub E*, Shmuel A* (* co-first authors), Logothetis NK, Ugurbil K (2007), Robust detection of ocular dominance columns in humans using Hahn spin echo BOLD functional MRI at high field. NeuroImage, 37(4):1161–1177.

Shmuel A, Yacoub E, Chaimow D, Logothetis NK, Ugurbil K (2007), Spatio-temporal point-spread function of fMRI signal in human gray matter at 7 Tesla. NeuroImage, 35(2):539-552.

Shmuel A, Augath M, Oeltermann A, Logothetis NK (2006) Negative functional MRI response correlates with decreases in neuronal activity in monkey visual area V1. Nature Neuroscience, 9(4):569-577.

Shmuel A, Korman M, Melnik A, Harel M, Ullman S, Malach R, Grinvald A (2005) Retinotopic axis specificity and selective clustering of feedback projections from V2 to V1 in the owl monkey. The Journal of Neuroscience, 25(8):2117-31.

Swindale NV, Grinvald A, Shmuel A (2003) The spatial pattern of response magnitude and selectivity for orientation and direction in cat visual cortex. Cerebral Cortex, 13(3):225-238.

Shmuel A, Yacoub E, Pfeuffer J, Van De Moortele PF, Adriany G, Hu X, Ugurbil K (2002) Sustained negative BOLD, blood flow and oxygen consumption response and its coupling to the positive response in the human brain. Neuron, 36(6):1195-1210.

Shmuel A, Grinvald A (2000) Coexistence of linear zones and pinwheels within orientation maps in cat visual cortex. Proceedings of the National Academy of Sciences USA 97(10):5568- 5573.

Shmuel A, Grinvald A (1996) Functional organization for direction of motion and its relationship to orientation maps in cat area 18. The Journal of Neuroscience, 16(21):6945-6964, and cover illustration.

Le NeuroĚýĆ˝ĚŘÎ岻ÖĐ

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Le Neuro (L'Institut-HĂ´pital neurologiqueĚýde MontrĂ©al) - un institut de recherche et d’enseignement bilingue de Ć˝ĚŘÎ岻ÖĐ, qui offre des soins de haut calibre aux patients - est la pierre angulaire de la Mission en neurosciences du Centre universitaire de santĂ© Ć˝ĚŘÎ岻ÖĐ. Nous sommes fiers d’être une institution Killam, soutenue par les fiducies Killam.

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