His primary areas of study are Epilepsy, Epilepsy surgery, Neuroscience, Psychiatry and Anesthesia. His Epilepsy research is mostly focused on the topic Ictal. His work carried out in the field of Epilepsy surgery brings together such families of science as Radiology, Surgery and Disease.
The study incorporates disciplines such as Genetic predisposition and Drug treatment in addition to Psychiatry. His Anesthesia research is multidisciplinary, incorporating elements of Odds ratio, Tolerability, Carbamazepine, Severity of illness and Pediatrics. As part of one scientific family, Philippe Ryvlin deals mainly with the area of Adverse effect, narrowing it down to issues related to the Quality of life, and often Neuroimaging and Biomarker.
His main research concerns Epilepsy, Ictal, Electroencephalography, Neuroscience and Epilepsy surgery. His Epilepsy study is focused on Psychiatry in general. His Ictal research incorporates themes from Positron emission tomography, Nuclear medicine and Audiology.
Philippe Ryvlin interconnects Radiology and Neuroimaging in the investigation of issues within Epilepsy surgery. His work investigates the relationship between Temporal lobe and topics such as Central nervous system disease that intersect with problems in Pathology. His work deals with themes such as Tolerability, Adverse effect, Internal medicine and Placebo, which intersect with Anesthesia.
His primary areas of investigation include Epilepsy, Electroencephalography, Ictal, Internal medicine and Physical medicine and rehabilitation. His research in the fields of Epilepsy surgery, Seizure detection and Epilepsy monitoring overlaps with other disciplines such as Wearable technology and Task force. Philippe Ryvlin focuses mostly in the field of Epilepsy surgery, narrowing it down to topics relating to Radiology and, in certain cases, Observational study and Refractory epilepsy.
His Electroencephalography study combines topics in areas such as Convulsive Seizures, Audiology, Deltoid curve, Artificial intelligence and Neurological disorder. His Ictal study contributes to a more complete understanding of Neuroscience. His research investigates the connection between Internal medicine and topics such as Cardiology that intersect with problems in Intracranial pressure.
Philippe Ryvlin mostly deals with Epilepsy, Physical medicine and rehabilitation, Electroencephalography, Ictal and Neuroimaging. Philippe Ryvlin combines subjects such as Magnetic resonance imaging, Radiology and Intensive care medicine with his study of Epilepsy. Philippe Ryvlin has researched Radiology in several fields, including Observational study and Epilepsy surgery.
His studies examine the connections between Physical medicine and rehabilitation and genetics, as well as such issues in Prospective cohort study, with regards to Oxygen therapy, Anesthesia, Hypoxemia, Pulse oximetry and Proportional hazards model. His studies in Electroencephalography integrate themes in fields like Audiology, Contraindication, Stimulation, Artificial intelligence and Machine learning. The concepts of his Ictal study are interwoven with issues in Convulsive Seizures, Tonic, Cardiology, Deltoid curve and Temporal lobe.
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Incidence and mechanisms of cardiorespiratory arrests in epilepsy monitoring units (MORTEMUS): A retrospective study
Philippe Ryvlin;Lina Nashef;Samden D Lhatoo;Lisa M Bateman.
Lancet Neurology (2013)
Sudden unexpected death in epilepsy: current knowledge and future directions.
Torbjörn Tomson;Lina Nashef;Philippe Ryvlin.
Lancet Neurology (2008)
Epilepsy: new advances
Solomon L Moshé;Emilio Perucca;Philippe Ryvlin;Philippe Ryvlin;Torbjörn Tomson.
The Lancet (2015)
Representation of Pain and Somatic Sensation in the Human Insula: a Study of Responses to Direct Electrical Cortical Stimulation
Karine Ostrowsky;Michel Magnin;Philippe Ryvlin;Jean Isnard.
Cerebral Cortex (2002)
Comparison of levetiracetam and controlled-release carbamazepine in newly diagnosed epilepsy
M. J. Brodie;E. Perucca;P. Ryvlin;E. Ben-Menachem.
Unifying the definitions of sudden unexpected death in epilepsy
Lina Nashef;Elson L. So;Philippe Ryvlin;Torbjörn Tomson.
Practice guideline summary: Sudden unexpected death in epilepsy incidence rates and risk factors: Report of the Guideline Development, Dissemination, and Implementation Subcommittee of the American Academy of Neurology and the American Epilepsy Society.
Cynthia Harden;Torbjoern Tomson;David Gloss;Jeffrey Buchhalter.
GRIN2A mutations in acquired epileptic aphasia and related childhood focal epilepsies and encephalopathies with speech and language dysfunction
Gaetan Lesca;Gabrielle Rudolf;Nadine Bruneau;Natalia Lozovaya.
Nature Genetics (2013)
Paroxysmal exercise-induced dyskinesia and epilepsy is due to mutations in SLC2A1, encoding the glucose transporter GLUT1.
Arvid Suls;Peter Dedeken;Karolien Goffin;Hilde Van Esch.
Histopathological Findings in Brain Tissue Obtained during Epilepsy Surgery
Blumcke I;Spreafico R;Haaker G;Coras R.
The New England Journal of Medicine (2017)
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