Congratulations to the winners of the 2021 CAN- CIHR-INMHA Brain Star Awards!

The Canadian Association for Neuroscience (CAN) and the Canadian Institutes of Health’s Institute of Neurosciences, Mental Health and Addiction (CIHR-INMHA) are proud to announce the winners of the 2021 Brain Star Awards.

The CIHR-INMHA Brain Star awards, administered for 2021 by the Canadian Association for Neuroscience, are awarded to students and trainees who have published high impact discoveries in all fields and disciplines covered by CIHR’s Institute of Neurosciences, Mental Health and Addiction in the 2021 calendar year.

The top 3 Brain Star Award winners of the year have been invited to make a presentation at the CAN meeting in May.

Read about the Brain Star Award winners of 2021

Men and women process pain signals differently

Drs. Annemarie Dedek, Eve Tsai, Mike Hildebrand and colleagues have discovered that neurons in the spinal cord process pain signals differently in women compared to men. Image courtesy of Justin Tang.
Drs. Annemarie Dedek, Eve Tsai, Mike Hildebrand and colleagues have discovered that neurons in the spinal cord process pain signals differently in women compared to men. Image courtesy of Justin Tang.

A new study published in the journal BRAIN shows for the first time that neurons in the spinal cord process pain signals differently in women compared to men. The finding could lead to better and more personalized treatments for chronic pain, which are desperately needed, especially in light of the opioid epidemic.

Although it has long been known that women and men experience pain differently, most pain research uses male rodents. The new study is unique because it used female and male spinal cord tissue from both rats and humans (generously donated by deceased individuals and their families). Continue reading

Brain Prize 2022: Pioneering work on how the nervous system controls movement awarded world’s top brain research prize

Three internationally renowned professors in neuroscience have transformed our understanding of the specific cell types and circuits that control movement: Silvia Arber (Switzerland), Ole Kiehn (Denmark) and Martyn Goulding (USA/New Zealand).

Their work has revolutionized our understanding of how we move, research now recognised with the award of the 2022 Brain Prize – the world’s most prestigious prize in neuroscience.

Learn more about the Brain Prize winners on the Lundbeck Foundation website here: Pioneering work on how the nervous system controls movement awarded world’s top brain research prize

Call for applications – Canadian neuroadvocates for the 2022 CAN Parliament Hill Week

We are excited to launch the application period for Canadian neuroadvocates for the next CAN Parliament Hill Week, which will take place in March 2022, as a virtual event. We are looking for a representative and diverse group of neuroscientists to meet with members of Parliament, Senators and Parliament Hill staff to highlight the importance of basic research in Canada, and the need to support it better.

Neuroscientists recruited for this event will be invited to participate in one to four meetings, in groups of four our five, to talk about their research and the importance of federal funding to support it. We aim to match neuroadvocates with representatives from their riding and/or with interest in their research topic, as much as possible. Meetings typically last 30 to 45 minutes. A training session will be held in advance of the meeting.

The application period is open until February 28, 2022. Continue reading

Read our latest newsletter

Read the latest edition of CAN Connection – Fall 2021

CAN ConnectionContent

Message from CAN President Shernaz Bamji

Opportunity to apply for membership in the CAN committees

A call is open for applications for membership in the following CAN committees:

Equity, Diversity and Inclusion Committee:

Advocacy Committee:

Nominations Committee:

Application deadline for all committees is September 10, 2021 (New extended deadline). Applicants must be members in good standing of CAN (dues paid)

Bourneville’s tuberous sclerosis: everything unfolds in the brain shortly after birth

Graziella Di Cristo - Image CHU Ste-Justine
Graziella Di Cristo

A Canadian research team has uncovered a new mechanism involved in Bourneville tuberous sclerosis (BTS), a genetic disease of childhood. The team hypothesizes that a mutation in the TSC1 gene causes neurodevelopmental disorders that develop in conjunction with the disease.

Seen in one in 6,000 children, tuberous sclerosis causes benign tumours or lesions that can affect various organs such as the brain, kidneys, eyes, heart and skin. While some patients lead healthy lives, others have significant comorbidities, such as epilepsy, autism and learning disabilities.

Although the role that the TSC1 gene plays in the disease is already known, Montreal scientists have only now identified a critical period in the postnatal development of GABAergic interneurons that are so important to the development of the brain. Continue reading