His primary areas of investigation include Neuroscience, Temporal lobe, Hippocampus, Epilepsy and Stereoelectroencephalography. His study brings together the fields of Tractography and Neuroscience. His biological study spans a wide range of topics, including Memoria, Limbic lobe, Déjà vu and Amygdala.
Maxime Guye works mostly in the field of Amygdala, limiting it down to topics relating to Ictal and, in certain cases, Brodmann area 38. Epilepsy is closely attributed to Electroencephalography in his work. His research in Stereoelectroencephalography intersects with topics in Central nervous system disease, Surgery, Stereotaxic technique and Magnetic resonance imaging, Radiology.
His main research concerns Neuroscience, Epilepsy, Magnetic resonance imaging, Electroencephalography and Ictal. His Neuroscience study focuses mostly on Temporal lobe, Resting state fMRI, Hippocampus, EEG-fMRI and Functional magnetic resonance imaging. The study incorporates disciplines such as Recognition memory and Entorhinal cortex in addition to Temporal lobe.
Maxime Guye has researched Epilepsy in several fields, including Neuroimaging, Radiology and Central nervous system disease. His study in Electroencephalography is interdisciplinary in nature, drawing from both Electrophysiology, Brain mapping and Age of onset. His Ictal research is multidisciplinary, incorporating elements of Premovement neuronal activity and Audiology.
The scientist’s investigation covers issues in Neuroscience, Epilepsy, Magnetic resonance imaging, Biomedical engineering and Anatomy. His Neuroscience study frequently links to related topics such as Diffusion MRI. His study explores the link between Diffusion MRI and topics such as Cognition that cross with problems in Artificial neural network, Epileptogenic zone, Stereoelectroencephalography, Connectome and Electroencephalography.
He combines subjects such as Hippocampal formation, Hippocampus and Circadian rhythm with his study of Epilepsy. His studies in Magnetic resonance imaging integrate themes in fields like Femur, Nuclear medicine, Bone mineral, Cadaver and Cadaveric spasm. His Biomedical engineering research is multidisciplinary, incorporating perspectives in White matter, Ultrahigh field and Spinal cord.
Maxime Guye focuses on Neuroscience, Epilepsy, Magnetic resonance imaging, White matter and Nuclear magnetic resonance. Many of his studies on Neuroscience involve topics that are commonly interrelated, such as Respiratory regulation. His Epilepsy research integrates issues from Hippocampus, Functional electrical stimulation, Functional magnetic resonance imaging and Neuroimaging.
The concepts of his Magnetic resonance imaging study are interwoven with issues in Computational anatomy and Anatomy. His White matter research is multidisciplinary, relying on both Periventricular Nodular Heterotopia, Biomedical engineering and Spinal cord. Maxime Guye interconnects Functional organization, Medial thalamus, Neuron, Ictal and Unexpected death in the investigation of issues within Resting state fMRI.
This overview was generated by a machine learning system which analysed the scientist’s body of work. If you have any feedback, you can contact us here.
Combined functional MRI and tractography to demonstrate the connectivity of the human primary motor cortex in vivo.
Maxime Guye;Geoffrey J. M. Parker;Mark R. Symms;Philip A. Boulby.
Decreased basal fMRI functional connectivity in epileptogenic networks and contralateral compensatory mechanisms.
Gaelle Bettus;Eric Guedj;Eric Guedj;Florian Joyeux;Florian Joyeux;Sylviane Confort-Gouny;Sylviane Confort-Gouny.
Human Brain Mapping (2009)
Graph theoretical analysis of structural and functional connectivity MRI in normal and pathological brain networks.
Maxime Guye;Maxime Guye;Gaelle Bettus;Gaelle Bettus;Gaelle Bettus;Fabrice Bartolomei;Fabrice Bartolomei;Patrick J. Cozzone;Patrick J. Cozzone.
Magnetic Resonance Materials in Physics Biology and Medicine (2010)
The role of corticothalamic coupling in human temporal lobe epilepsy.
Maxime Guye;Jean Régis;Manabu Tamura;Fabrice Wendling.
Semiologic and electrophysiologic correlations in temporal lobe seizure subtypes.
Louis Maillard;Jean-Pierre Vignal;Martine Gavaret;Maxime Guye.
Stereoelectroencephalography in presurgical assessment of MRI-negative epilepsy
Aileen McGonigal;Fabrice Bartolomei;Jean Régis;Maxime Guye.
Enhanced EEG functional connectivity in mesial temporal lobe epilepsy.
Gaelle Bettus;Fabrice Wendling;Maxime Guye;Luc Valton.
Epilepsy Research (2008)
Entorhinal Cortex Involvement in Human Mesial Temporal Lobe Epilepsy: An Electrophysiologic and Volumetric Study
Fabrice Bartolomei;Mouhamad Khalil;Fabrice Wendling;Anna Sontheimer.
Pre-ictal synchronicity in limbic networks of mesial temporal lobe epilepsy
F. Bartolomei;F. Wendling;J. Régis;M. Gavaret.
Epilepsy Research (2004)
Role of resting state functional connectivity MRI in presurgical investigation of mesial temporal lobe epilepsy
Gaelle Bettus;Fabrice Bartolomei;Sylviane Confort-Gouny;Eric Guedj.
Journal of Neurology, Neurosurgery, and Psychiatry (2010)
If you think any of the details on this page are incorrect, let us know.
We appreciate your kind effort to assist us to improve this page, it would be helpful providing us with as much detail as possible in the text box below: