His primary areas of investigation include Microglia, Neuroscience, Immunology, Visual cortex and Synaptic plasticity. Microglia is the subject of his research, which falls under Inflammation. His works in Neuroplasticity, Chronic stress, Dendritic spine, Central nervous system and Oligodendrocyte are all subjects of inquiry into Neuroscience.
The study incorporates disciplines such as Long-term potentiation and Anatomy in addition to Dendritic spine. In his research, Molecular biology is intimately related to Cell biology, which falls under the overarching field of Immunology. His Visual cortex course of study focuses on Sensory system and Sensory loss, Apposition, Synaptic pruning, Extracellular and Parenchyma.
His primary areas of study are Microglia, Neuroscience, Cell biology, Immune system and Central nervous system. His research in Microglia intersects with topics in Dendritic spine and Neuroinflammation. His work on Chronic stress as part of his general Neuroscience study is frequently connected to Cognitive decline, thereby bridging the divide between different branches of science.
His Cell biology research is multidisciplinary, relying on both Ultrastructure and Cell type. His Immune system research integrates issues from Receptor and Antigen. His research investigates the connection with Synaptic plasticity and areas like Visual cortex which intersect with concerns in Metaplasticity.
The scientist’s investigation covers issues in Neuroscience, Microglia, Immune system, Neurodegeneration and Neuroinflammation. His Neuroscience research is multidisciplinary, incorporating elements of Disease and Depolarization. His Microglia study improves the overall literature in Internal medicine.
His Immune system research incorporates themes from Fluorescence microscope, Immunostaining and Microscopy. The various areas that Marie-Ève Tremblay examines in his Neurodegeneration study include Parkinson's disease, Alpha-synuclein, TREM2, Gliosis and Cell biology. The concepts of his Neuroinflammation study are interwoven with issues in Glutamate homeostasis, Bioinformatics, Glutamate receptor, Innate immune system and Comorbidity.
Marie-Ève Tremblay spends much of his time researching Microglia, Neuroscience, Central nervous system, Immune system and Neurodegeneration. His Microglia research entails a greater understanding of Immunology. His work in the fields of Neuroscience, such as Gliosis, intersects with other areas such as Context.
His Central nervous system study integrates concerns from other disciplines, such as Synaptic plasticity, Ultrastructure, Nervous system, Schizophrenia and Disease. He has researched Immune system in several fields, including Neuroinflammation, Chronic stress and Neurotropism. Marie-Ève Tremblay combines subjects such as Striatum, Pathogenesis, Cerebral cortex, Dendritic spine and Huntington's disease with his study of Neurodegeneration.
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Microglial interactions with synapses are modulated by visual experience.
Marie-Ève Tremblay;Rebecca L. Lowery;Ania K. Majewska.
PLOS Biology (2010)
The Role of Microglia in the Healthy Brain
Marie-Ève Tremblay;Beth Stevens;Amanda Sierra;Hiroaki Wake.
The Journal of Neuroscience (2011)
Inefficient clearance of myelin debris by microglia impairs remyelinating processes
Antoine Lampron;Antoine Larochelle;Nathalie Laflamme;Paul Préfontaine.
Journal of Experimental Medicine (2015)
Microglia across the lifespan: from origin to function in brain development, plasticity and cognition.
Tuan Leng Tay;Julie C. Savage;Chin Wai Hui;Kanchan Bisht.
The Journal of Physiology (2017)
Microglial P2Y12 is necessary for synaptic plasticity in mouse visual cortex.
Grayson O. Sipe;Rebecca L. Lowery;Marie-Ève Tremblay;Emily A. Kelly.
Nature Communications (2016)
Effects of aging and sensory loss on glial cells in mouse visual and auditory cortices.
Marie-Ève Tremblay;Martha L. Zettel;James R. Ison;Paul D. Allen.
Dark microglia: A new phenotype predominantly associated with pathological states
Kanchan Bisht;Kaushik P. Sharma;Cynthia Lecours;Maria Gabriela Sánchez.
Microglial subtypes: diversity within the microglial community.
Vassilis Stratoulias;Jose Luis Venero;Jose Luis Venero;Marie-Ève Tremblay;Bertrand Joseph.
The EMBO Journal (2019)
Microglia are an essential component of the neuroprotective scar that forms after spinal cord injury.
Victor Bellver-Landete;Floriane Bretheau;Benoit Mailhot;Nicolas Vallières.
Nature Communications (2019)
Surveillance, Phagocytosis, and Inflammation: How Never-Resting Microglia Influence Adult Hippocampal Neurogenesis
Amanda Sierra;Sol Beccari;Irune Diaz-Aparicio;Juan M. Encinas.
Neural Plasticity (2014)
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