Dr. Alain Dagher

When it comes to weight gain, the problem may be mostly in our heads, and our genes

Clinicians should consider how the way we think can make us vulnerable to obesity, and how obesity is genetically intertwined with brain structure and mental performance, according to new research.

The study, led by researchers at the Montreal Neurological Institute and Hospital (The Neuro) and published in the Proceedings of the National Academy of Sciences on Aug. 28, 2018, was an examination of magnetic resonance imaging (MRI) and cognitive test data from 1,200 individuals, supplied as part of the Human Connectome Project.

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The Royal Society of Canada has recently announced new Fellows in the Academies of Arts and Humanities, Social Sciences, and Science.  They have been elected by their peers for their outstanding scholarly, scientific and artistic achievement. Recognition by the RSC is the highest honour an individual can achieve in the Arts, Social Sciences and Sciences.

The RSC also welcomed new Members of the College of New Scholars, Artists and Scientists, that include top mid-career leaders in Canada. The College provides the RSC with a multigenerational capacity to help Canada and the world address major challenges and seize new opportunities including those identified in emerging fields.

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Matthew Farrer

For the past decade, Parkinson’s disease researchers have relied on the experimental equivalent of using a sledgehammer to tune a guitar to test new therapies for the disease. This may be a reason clinical trials of promising neuroprotective drugs fail. But, in new research published today in Nature Parkinson’s Disease, researchers at the Djavad Mowafaghian Centre for Brain Health (DMCBH) may have found the ideal tool for the job.

“We believe we’ve found an approach that is most relevant to humans, in that our models of gene dysfunction mimic the etiology of Parkinson’s disease rather than its pathology— meaning its beginning rather than its end,” says Dr. Matthew Farrer, the study’s lead investigator and a researcher at the Centre for Applied Neurogenetics at DMCBH. “This means we’re looking at the disease before it becomes symptomatic, before it begins affecting an individual’s motor skills or cognition.”

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Individual members of the Canadian Association for Neuroscience (CAN) have alerted us to the fact that a number of scientists across Canada are being denied visas to enter the United States to attend the next annual Society for Neuroscience meeting in San Diego. Many are students and postdoctoral fellows who have left their home countries to dedicate their energy and talents to research into devastating brain and mental health conditions that afflict millions worldwide. CAN takes the position that the exchange of ideas cannot be limited by political boundaries. To do so severely compromises the ability of the scientific enterprise to develop new ideas and advance humanity. Scientists must have the ability to travel freely to discuss their work and interact with colleagues across the globe.

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Read our submission to the Standing Committee on Finance of Canada in advance of budget 2019:

Investing in health research to diversify and strengthen Canada’s economy, create good jobs and keep Canadians healthy.

Huai-Ying Huang

Congratulations to 17 year-old Huai-Ying Huang of Sir Frederick Banting Secondary School in London, Ontario, Canada, on winning third place in the 2018 International Brain Bee Championship in Berlin, held July 7-11, 2018! .

Huai-Ying Huang loves playing the piano and oboe, and is starting at McGill University to pursue her dream of becoming a neurologist or a neurosurgeon, not only because she has passion for neuroscience, but because she wants to be able to help people affected by neurological disorders.

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Jessica Agostinone and Adriana Di Polo

Major discovery at the CRCHUM: reestablishing communication between neurons to improve vision.

Neuroscience researcher Dr. Adriana Di Polo, Ph. D., and her team at the University of Montreal Hospital Research Centre (CRCHUM) in Canada, have made a major breakthrough in the treatment of glaucoma. Their findings could also be applicable to other neurodegenerative conditions, notably Alzheimer’s disease. The results have just been published in the prestigious British scientific journal Brain, an Oxford University Press publication.

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Paul Frankland

TORONTO – When asked to think of their earliest memory, most would think of a time when they were four or five years old. The period from birth to kindergarten appears to be forgotten. Since the late 1800s, this phenomenon has been called “infantile amnesia” and debate on why we can’t remember our earliest years has persisted to this day: Are these memories gone or are they just difficult to access?

A new study from The Hospital for Sick Children (SickKids) shows these early memories in mice are not missing and can be brought back by directly stimulating different clusters of neurons that represent individual infantile memories in the brain. The results, published in Current Biology, provide deeper insight into the complexities of forgetting.

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Maurice Chacron

Researchers at McGill University have discovered that feedback pathways enable sensory neurons to respond to weak sensory input in order to lead to perception.
Published in PLoS Biology, their study shows that feedback pathways, which are seen ubiquitously across sensory systems and account for 90-95% of input onto sensory neurons, are necessary to generate neural responses and perception of weak sensory input that would otherwise not be detected by the organism. These results thus reveal an elegant mechanism by which the brain processes sensory information, which is critical for understanding brain function at large.

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Researchers at Université de Montréal look at the promising role played by the BMI1 gene, which could someday help mitigate or even reverse the disease.

After a decade of work, a team led by Hôpital Maisonneuve-Rosemont researcher and Université de Montréal associate professor Dr. Gilbert Bernier has shed promising light on the origin of the most common and prevalent form of Alzheimer’s disease, hoping to someday help mitigate or even reverse the progress of the disease. The team’s results are published in the prestigious scientific journal Cell Reports.

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Psychiatric disorders share an underlying genetic basis, says landmark paper with authors from University of Toronto, University of Calgary, Université de Montréal, McGill University, Dalhousie University and other Canadian Institutions. 

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Charles Bourque

Researchers uncover mechanisms of overhydration leading to hyponatremia – a common condition in patients after a traumatic brain injury

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Understanding how the brain is built during development leads to new therapeutic approaches for repairing brain injury.

Research by Dr. Freda Miller and her team at the Hospital for Sick Children and the University of Toronto has determined how brain stem cells and the environment they live within collaborate to build brain circuits during development, discoveries that have led to a better understanding of neurodevelopmental disorders in children.  The Miller lab and her basic research collaborators work closely with their clinical colleagues to harness this information and develop new approaches for treating brain injury.  These results were presented at the 2018 Canadian Neuroscience Meeting, in Vancouver, May 15^th, 2018.

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Catharine Winstanley at the University of British Columbia presents discoveries revealing the brain mechanisms involved in decision-making

A team of researchers led by Dr. Catharine Winstanley at the University of British Columbia have uncovered a network of regions in the brain that are involved in determining the choice of working harder to get a bigger reward, or putting in a lesser effort and receiving a smaller reward. Understanding how the brain makes such decisions is one of the most fundamental questions in neuroscience and psychology, and sophisticated animal behavioural testing, coupled with advance brain imaging and stimulation techniques are shedding light on this important process. These results were presented at the 2018 Canadian Neuroscience Meeting, in Vancouver, May 14th, 2018.

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Craig Brown

Scientists have known for years that blood vessel loss in the brain impacts cognitive decline as people age. New research from the University of Victoria has provided an explanation for why we lose blood vessels—vital knowledge that could lead to better preventive and protective strategies for maintaining brain health.

UVic neuroscientist Craig Brown and PhD student Patrick Reeson have been researching the phenomenon of clogged capillaries, the brain’s smallest blood vessels. These tiny capillaries routinely get “stuck,” clogged by cells, fat and debris in the blood. Most clear within seconds to minutes, however some can remain stuck for much longer, but what ultimately happens to these lingering clogs has remained a mystery.

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Invitation to participate in a research study on vulnerability in mental health research ethics

National study on vulnerability in mental health and psychiatric research

Does a mental health condition prevent someone from being able to participate to research?

What are acceptable conditions for ethical mental health and psychiatric research?

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Michael Hayden

New research from the University of British Columbia suggests that following a strict eating schedule can help clear away the protein responsible for Huntington disease in mice.

Huntington disease (HD) is an inherited, progressive disorder that causes involuntary movements and psychiatric problems. Symptoms appear in adulthood and worsen over time. Children born to a parent with HD have a one in two chance of inheriting the disease, which is caused by a buildup of mutant huntingtin protein (mHTT).

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Jade-Emmanuelle Deshaies – Christine Vande Velde

Eight years in the making, a discovery by neuroscientists at the CRCHUM highlights the value of long-term, fundamental research and provides important information for future drug targets.

It took eight long years of research, but now an international team led by neuroscientists at Université de Montréal has discovered a basic molecular mechanism that better helps understand how Lou Gehrig’s disease, or amyotrophic lateral sclerosis (ALS), works.

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