Louis Lemieux

What is he best known for?

The fields of study he is best known for:

• Magnetic resonance imaging
• Neuroscience
• Epilepsy

His primary scientific interests are in Neuroscience, Epilepsy, Electroencephalography, EEG-fMRI and Magnetic resonance imaging. His Epilepsy research is multidisciplinary, incorporating elements of Neocortex, Hippocampus and Central nervous system disease. Louis Lemieux conducted interdisciplinary study in his works that combined Electroencephalography and Electromagnetic field.

His EEG-fMRI research includes themes of Artificial intelligence, Artifact and Brain mapping. His Magnetic resonance imaging study incorporates themes from Hippocampal sclerosis, Segmentation and Neuroimaging. The Ictal study combines topics in areas such as Blood-oxygen-level dependent and Epilepsy surgery.

His most cited work include:

• Three-dimensional maximum probability atlas of the human brain, with particular reference to the temporal lobe (790 citations)
• Identification of EEG events in the MR scanner : The problem of pulse artifact and a method for its subtraction (734 citations)
• Frontolimbic brain abnormalities in patients with borderline personality disorder: a volumetric magnetic resonance imaging study. (295 citations)

What are the main themes of his work throughout his whole career to date?

The scientist’s investigation covers issues in Neuroscience, Epilepsy, Electroencephalography, EEG-fMRI and Ictal. Louis Lemieux combines subjects such as Magnetic resonance imaging, Central nervous system disease and Audiology with his study of Epilepsy. His research integrates issues of Segmentation and Nuclear medicine in his study of Magnetic resonance imaging.

His Electroencephalography study incorporates themes from Artificial intelligence, Artifact, Functional magnetic resonance imaging, Brain mapping and Pattern recognition. His study in EEG-fMRI is interdisciplinary in nature, drawing from both Hemodynamics, Speech recognition, Physical medicine and rehabilitation and Scalp. His research investigates the connection with Ictal and areas like Radiology which intersect with concerns in Surgery.

He most often published in these fields:

• Neuroscience (59.06%)
• Epilepsy (55.12%)
• Electroencephalography (50.39%)

What were the highlights of his more recent work (between 2014-2020)?

• Electroencephalography (50.39%)
• Epilepsy (55.12%)
• Neuroscience (59.06%)

In recent papers he was focusing on the following fields of study:

Electroencephalography, Epilepsy, Neuroscience, EEG-fMRI and Ictal are his primary areas of study. His biological study spans a wide range of topics, including Functional magnetic resonance imaging, Nuclear magnetic resonance, Artificial intelligence and Pattern recognition. His Epilepsy research includes elements of Resting state fMRI, Neuroimaging, Physical medicine and rehabilitation and Thalamus.

His EEG-fMRI study combines topics in areas such as Quality, Speech recognition, Epileptogenic zone, Magnetic resonance imaging and Scalp. His study focuses on the intersection of Ictal and fields such as Audiology with connections in the field of Functional imaging, Anesthesia, Concordance and Epilepsy in children. His work on Hippocampal sclerosis as part of general Temporal lobe study is frequently linked to Market segmentation, bridging the gap between disciplines.

Between 2014 and 2020, his most popular works were:

• Electrophysiological correlates of the BOLD signal for EEG-informed fMRI (100 citations)
• Electrophysiological correlates of the BOLD signal for EEG-informed fMRI (100 citations)
• EEG-fMRI in the presurgical evaluation of temporal lobe epilepsy. (45 citations)

In his most recent research, the most cited papers focused on:

• Magnetic resonance imaging
• Neuroscience
• Internal medicine

His primary areas of investigation include Neuroscience, Electroencephalography, Epilepsy, Functional magnetic resonance imaging and Resting state fMRI. He studies EEG-fMRI which is a part of Electroencephalography. His EEG-fMRI research incorporates elements of Epilepsy in children, Concordance, Translation, Artificial intelligence and Simulation.

His study in Ictal and Temporal lobe is done as part of Epilepsy. His work in Functional magnetic resonance imaging addresses issues such as Brain activity and meditation, which are connected to fields such as Bioinformatics. His Resting state fMRI study integrates concerns from other disciplines, such as Intracranial eeg, Epileptogenesis, Electrophysiology and Functional connectivity.

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