On this page: MiND LabÌý´¥ÌýMRSÌý´¥ÌýneuroSPEEDÌý´¥ÌýNOELÌý´¥ÌýMultimodal Imaging and Connectome Analysis LabÌý´¥ÌýChai LabÌý´¥ÌýSSBMÌý´¥ÌýNIST LabÌý´¥ÌýHuman Dopamine Neuroimaging LabÌý´¥ÌýSPINDLÌý´¥ÌýFrontotemporal Dementia & Neuropsychiatry ´¥ÌýACE Lab | NIL ´¥ÌýRadiochemistry and PET tracers Development | Leyton Lab ´¥ÌýRadiochemistry and Cyclotron Lab | NeuroPM Lab | Network Neuroscience Lab | Translational Neuroimaging Laboratory | Neuro-Data-Science ORIGAMI Lab | Quantitative Microstructure Imaging ´¥ÌýVisual Systems Neuroscience & Brain Imaging Signals ´¥ÌýCERC in Metabolism and the Brain ´¥ÌýPET Unit Director ´¥ÌýLaboratory of Brain and Cognition ´¥ÌýHigh-resolution quantitative MR imaging ´¥ÌýThe Villeneuve Lab ´¥ÌýZatorre Lab
Principal Investigator: Udunna Anazodo, PhDÌý-ÌýAssistant Professor More InformationThe MiND Lab pursues basic and clinical science research questions that strive to create quantitative PET/MRI tools for understanding the neurobiology of degenerative diseases that drive disorders of cognition and behavior. |
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MRS: Magnetic Resonance StudiesPrincipal Investigator: Dr Douglas Arnold, MDÌý-ÌýJames-91Ë¿¹ÏÊÓƵ Professor More InformationDr Douglas Arnold is a neurologist with special expertise in MRI. His personal research interests are centered on the use of advanced neuro-imaging techniques to assess the pathological evolution of multiple sclerosis and Alzheimer's disease and to quantify the effects of therapy on these diseases. |
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Principal Investigator: Sylvain Baillet, PhDÌý- Professor & Director, MEG Core More Information’s broad objective is to comprehend the nature and macroscopic mechanisms of large-scale, network brain activity — how they enable complex behavior, how they are altered in disease. |
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Principal Investigators: Dr Andrea Bernasconi, MDÌý- Professor, Dr Neda Ladbon-Bernasconi, MD, PhDÌý-ÌýAssociate Professor More InformationThe research activity of NOELÌýis centered on the development of advanced magnetic resonance imaging (MRI) techniques to better understand causes, consequences and mechanisms responsible for epilepsy. |
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Principal Investigator: Boris Bernhardt, PhDÌý-ÌýAssistant Professor More InformationBoris Bernhardt is a cognitive scientist with expertise in neuroimaging, network neuroscience, and statistical learning. He joined 91Ë¿¹ÏÊÓƵ as Assistant Professor of Neurology and Neurosurgery in 2016 and heads the Multimodal Imaging and Connectome Analysis Lab. |
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Principal Investigator: Danilo Bzdok, PhDÌý-ÌýAssociate Professor More InformationThere is now increasing momentum in data sharing, open access, and data collection consortia that build richly annotated "big data" repositories for brain and behavior. This unprecedented data setting creates a rapidly growing potential to provide principled answers to human brain organization and its disturbances in brain disease. Dr Bzdok will take the opportunity to explore, formalize, and predict brain phenotypes of hidden population variation by capitalising on heterogeneous data sources to tackle open questions in systems neuroscience in a way that also paves new ways for precision medicine in brain health. |
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Chai LabPrincipal Investigator: Xiaoqian Chai, PhDÌý-ÌýAssistant Professor More InformationThe overarching goal of our research is to understand the relation between brain organization and cognitive development. We examine how large-scale brain networks support learning, memory and language. We are particularly interested in the neural developmental processes underlying these cognitive functions from children to adults, and how experience and disease can alter brain organization. Our research methodology includes behavioral, brain imaging (fMRI, resting-state fMRI, DTI) and computational approaches.Ìý |
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Principal investigator: Justine Cléry, PhDÌý-ÌýAssistant Professor More InformationJustine Cléry is studying which and how brain networks support cognitive processing such as sensory processes and social cognition, and how they are established and modulated across our lifespan. Her lab uses neuroimaging techniques (functional and structural magnetic resonance imaging, diffusion, microstructural imaging) and behavioural measurements (eye-tracking, touchscreen-based tasks, reaction times, observation) in nonhuman primate models (macaques and marmosets). In addition, her lab investigates these brain mechanisms in control and autistic subjects. |
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Principal Investigator: D. Louis Collins, PhDÌý-ÌýProfessor More InformationThe Neuro Imaging and Surgical Technologies Laboratory develops computer vision image processing algorithms for analysis of medical images that are focused on registration and segmentation. These techniques are applied to different research projects that include image guided neurosurgery and disease diagnosis, prognosis and quantification for diseases such as multiple sclerosis, epilepsy, schizophrenia and degenerative diseases such as Alzheimer’s dementia. |
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Human Dopamine Neuroimaging LabPrincipal Investigator: Dr Alain Dagher, MDÌý-ÌýAssociate Professor More InformationDr Dagher is a neurologist specializing in movement disorders and functional brain imaging. His research aims at understanding the function of the basal ganglia, with a particular emphasis on appetitive behaviours. This involves studying how we learn about rewards and punishments, and become motivated to engage in reward seeking behaviours. The two main techniques used are positron emission tomography (PET) targeting the dopamine system, and functional magnetic resonance imaging (fMRI). The research focuses on Parkinson’s disease, stress, drug addiction (notably cigarette smoking), pathological gambling, and obesity. Dr Dagher is funded by CIHR, FRSQ, NIDA, the Parkinson Society of Canada, The Institute for Research on Pathological Gambling and Related Disorders, and Unilever PLC. |
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Spino-cerebral Plasticity and Integrated Neuroimaging in Disease and Learning Laboratory (SPINDL)Principal Investigator: Julien Doyon, PhDÌý-ÌýProfessor & Director, McConnell Brain Imaging Centre More InformationResearch in our laboratory is structured around two poles: a fundamental research pole that is focused on theÌýneuroscience of learning and memoryÌýand an applied research pole that seeks to apply the knowledge gained therein inÌýneurodegenerative and neurological diseases, such as Parkinson’s and amyotrophic lateral sclerosis. |
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Frontotemporal Dementia & NeuropsychiatryPrincipal Investigator: Ìý- Assistant Professor More InformationThe FTD & Neuropsychiatry Lab led by Dr Simon Ducharme aims to develop clinical and therapeutic tools for neuropsychiatric disorders, focusing on major neurocognitive disorders. We are conducting translational studies using structural and functional imaging in frontotemporal dementia (FTD) to improve early diagnostic markers for this devastating disease. Our group is involved in several national and international neuroimaging studies on dementia, in addition to innovative clinical trials on Alzheimer’s disease and FTD. |
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Principal Investigator: Alan C. Evans, PhDÌý-ÌýJames-91Ë¿¹ÏÊÓƵ Professor More InformationACELab was established in 1984, when Dr Evans moved to the Montreal Neurological Institute (MNI) at 91Ë¿¹ÏÊÓƵ to continue his PET research. The lab has made pioneering contributions to multi-modal brain imaging with PET and MRI, image processing and large-scale brain database analysis and cutting edge 3D computer imaging techniques, and continues to foster a research and training environment to use these methods and address long-standing questions about brain development and neurodegenerative diseases. |
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Principal Investigator: Richard Hoge, PhDÌý- Associate Professor More InformationRichard Hoge is an Associate Professor in the Department of Neurology and Neurosurgery, and Director of the Human Magnetic Resonance (MRI) Program. Hoge is a physicist who develops new brain imaging technology that is used to examine cognitive processes in the elderly. He creates programs for functional MRI and advanced positron emission tomography (PET) to study the state of brain function in both healthy and pathological subjects. He comes to The Neuro from the Université de Montréal, where he was associate director of the Functional Neuroimaging Unit CRIUGM and an associate professor at the Institute of Biomedical Engineering. |
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Principal Investigator: Yasser Iturria Medina, PhDÌý-ÌýAssistant Professor More InformationDr Yasser Iturria Medina, a Canada Research Chair Tier-2 on Multimodal Data Integration in Neurodegeneration, is an Assistant Professor in the Department of Neurology and Neurosurgery. He is also an associate member of the Ludmer Centre for Neuroinformatics and Mental Health and the McConnell Brain Imaging Centre. Yasser received his undergraduate degree in Nuclear Engineering from the Higher Institute for Nuclear Sciences and Technology, Cuba, in 2004, and his Master’s degree in Neurophysics and Neuroengineering from the Cuban Neuroscience Center in 2006. He then completed his PhD in Neuroimaging and Neuroinformatics at the National Center for Scientific Research and Havana’s University of Medical Science in 2013. He came to the MNI/BIC as a postdoctoral student in 2013, before being appointed as an Assistant Professor in 2018. |
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Radiochemistry and PET tracers DevelopmentPrincipal Investigator: Alexey Kostikov, PhDÌý-ÌýAssistant Professor More InformationThe Radiochemistry and PET Tracers Development Laboratory develops and adopts the synthesis of novel positron emission tomography (PET) radiotracers to directly study expression of various molecular biomarkers in healthy and pathological CNS. We are now focused on exploring neurotrophin regulation and signalling via different receptors including p75NTR, Trk and sortilin. We are also interested in studying the regulation of neuropeptide Y transmission system through the development of ligands for Y2 receptors. |
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Principal Investigator: Marco Leyton, PhDÌý-ÌýProfessor More InformationDr Leyton is a Full Professor in 91Ë¿¹ÏÊÓƵ’s Department of Psychiatry, a past-President of the Canadian College of Neuropsychopharmacology (CCNP), and a founding member of the Scientific Advisory Council to the Canadian Centre for Substance use and Addictions (CCSA). The focus of his research is the neurobiology of addictions and addiction related disorders. Dr Leyton received his B.Sc. from Memorial University of Newfoundland (MUN), and his M.A. and Ph.D. degrees at Concordia University’s Center for Studies in Behavioral Neurobiology (CSBN). As a graduate student, he studied the neurobiology of reward-seeking behaviors in laboratory animals. As a post-doctoral fellow, he learned the tools of clinical neuroscience and developed a research program designed to test these ideas in humans. During the past 25 years, he has produced a translational research program, developing new methods for manipulating neurotransmitter function and mapping the neurobiology of substance use in humans. |
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Radiochemistry and Cyclotron LabPrincipal Investigator: Gassan Massarweh, PhDÌý-ÌýAssistant Professor, Director of Cycloton and Radiochemistry More InformationDr Massarweh's group focuses on cutting-edge developments in radiochemistry along the following principal axes of research:
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Principal Investigator: Bratislav Misic, PhDÌý-ÌýAssistant Professor More InformationBratislav Misic leads the Network Neuroscience Lab and investigates how cognitive operations and complex behaviour emerge from the connections and interactions among brain areas. |
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Principal Investigator: Dr Jean-Baptiste Poline More InformationOur aim is to produce and promote open and reproducible neuroimaging research, with a focus on neuroimaging data science and neuroinformatics. ORIGAMI stands for Open & Reproducible Imaging Genetics and Applied Machine Intelligence. |
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Principal Investigator: Dr Pedro Rosa Neto, MD, PhDÌý-ÌýProfessor More InformationTranslational Neuroimaging Laboratory (TNL) develops neuroimaging techniques and analytical frameworks for modeling neurodegenerative processes including deposition of protein aggregates, metabolic abnormalities, cell transport systems and neuroreceptors dysfunction. The laboratory encompasses a cohesive multidisciplinary team conducting integrative and multimodal neuroimaging research in human disease as well as disease models. TNL collaborates with an extensive network of laboratories and is committed to scientific training in the field of neuroimaging. |
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Principal Investigator: David Rudko, PhDÌý-ÌýAssistant Professor,ÌýCo - Director, MRI Unit More InformationDavid Rudko is an Assistant Professor in the Departments of Neurology and Neurosurgery and Biomedical Engineering at the Montreal Neurological Institute of 91Ë¿¹ÏÊÓƵ. Prof Rudko completed his PhD in Physics with a specialization in ultra-high field MRI under the supervision of Dr Ravi Menon at the University of Western Ontario. |
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Visual Systems Neuroscience & Brain Imaging SignalsPrincipal Investigator: Amir Shmuel, PhDÌý-ÌýProfessor More InformationThe research in our laboratory is focused on two goals. The first is to understand the neuronal mechanisms that underlie functional brain imaging signals, and to evaluate the degree to which these signals reflect the locally measured neuronal activity. The second is to elucidate the principles and processes used by the cerebral cortex to analyze visual information and to create coherent visual perception. |
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Principal Investigator: Ìý-ÌýProfessor More InformationDana M Small is the Canada Excellence Research Chair in Metabolism and the Brain. She holds primary appointments in Neurology and Neurosurgery and in Internal Medicine. Professor Small received her PhD in Clinical Psychology from 91Ë¿¹ÏÊÓƵ in 2001 and subsequently established her , where she was on faculty for 20 years. Her research combines neuroimaging and metabolic measurements to understand how the brain and body integrate signals from the external environment and the internal milieu to optimize behaviour and metabolism. Her laboratory also studies how dysregulation of these body-brain axes contribute to the development of obesity, diabetes, cognitive impairment and psychiatric disorders. |
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PET Unit DirectorPrincipal Investigator: Dr Jean-Paul Soucy, MD, MScÌý-ÌýAssociate Professor, Medical Director, PET Unit More InformationJean-Paul Soucy, MD, M.Sc., is Unit Director, Positron Emission Tomography, at the McConnell Brain Imaging Centre of the Montreal Neurological Institute. He is a physician with primary training is in nuclear medicine and he has an MSc in Neuroscience. He completed a fellowship at Service Hospitalier Frédéric-Joliot, Orsay, France, working on the evaluation of brain perfusion in the acute phase of strokes. |
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Principal Investigator: Nathan Spreng, PhDÌý-ÌýProfessor More InformationNathan Spreng is studying how brain networks support various cognitive processes such as remembering information, and how we use this knowledge to influence our decisions. His lab examines large-scale brain network dynamics and their role in cognition. Currently, we investigate attention, memory, cognitive control, and social cognition, and the interacting brain networks that support them. We are also actively involved in the development and implementation of multivariate and network-based statistical approaches to assess brain structure, connectivity and activity. In doing so, we aim to better understand the properties of brain networks underlying cognitive processes as they change across the lifespan in health and disease. |
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Principal Investigator: Christine Tardif, PhDÌý-ÌýAssistant Professor,ÌýCo - Director, MRI Unit More InformationDr Christine Tardif is an Assistant Professor in the Department of Neurology and Neurosurgery and the Department of Biomedical Engineering. She is also a member of the magnetic resonance imaging (MRI) core of the McConnell Brain Imaging Centre. |
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Principal Investigator: Sylvia Villeneuve, PhDÌý-ÌýAssistant Professor More InformationThe Villeneuve Lab is interested in how the brain ages, with a specific focus on factors that modify the association between brain lesions and cognitive performance. Our research is motivated by the fact that more than 25% of older adults are considered cognitively normal despite the presence of beta-amyloid in their brain, a hallmark of Alzheimer’s disease. This fact suggests that other factors interact with beta-amyloid to trigger cognitive deficits in Alzheimer’s disease. It also suggests that actions can be taken to prevent or postpone disease-related symptoms. The main focus of the Villeneuve Lab’s research is therefore to examine the factors that protect against, or worsen, the development of cognitive deficits in age-related neurodegenerative diseases. |
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Principal Investigator: Robert J. Zatorre, PhDÌý-ÌýProfessor More InformationRobert Zatorre is a cognitive neuroscientist at the Montreal Neurological Institute of 91Ë¿¹ÏÊÓƵ. He was born and raised in Buenos Aires, Argentina, and carried out his doctoral studies at Brown University with the late Peter Eimas, followed by postdoctoral work with Brenda Milner. He currently holds a Canada Research Chair at the Montreal Neurological Institute of 91Ë¿¹ÏÊÓƵ. In 2006 he became the founding co-director, with Isabelle Peretz, of the international laboratory for Brain, Music, and Sound research (BRAMS). His work has been recognized with several awards including the IPSEN foundation prize in neuronal plasticity in 2011, the Knowles prize in hearing research from Northwestern University in 2013, election to the Royal Society of Canada in 2017, and the de Carvalho-Heineken prize in cognitive science from the Netherlands Academy of Arts and Sciences in 2020. He is also a fellow of the Canadian Institute for Advanced Research.Ìý |