“My Virtual Dream” is an innovative and interactive live performance experience of the Virtual Brain technology developed by researchers at Baycrest Health Sciences Centre in partnership with neuroscience experts around the world.
Baycrest Heath Sciences’ “My Virtual Dream,” an innovative and interactive live performance experience at the intersection of science, art and music, is currently touring the installation with appearances in Amsterdam in May and more scheduled for Irvine, CA in October.
MaRS Innovation is working with the Baycrest team to commercialize the technology behind the demonstration, known as the virtual brain.
My Virtual Dream was featured in TechVibes on July 8 and in a PLOS blog published on August 14, 2015.
“The Virtual Dream tour is a ‘living lab’ that engages the public, fuels science, creates art and educates while it entertains,” says Richard Tavener, executive producer of the Virtual Dream tour.
Participants wear the Muse, a brain-computer interface headset provided by InteraXon, and use focus and mental relaxation states to complete a science game and create a stunning array of visuals and music.
The brain data collected at Nuit Blanche has yielded insights about how the brain learns and a science paper about this massive, one-night neuroscience experiment. The paper, which appeared in the July issue of PLOS One, found that:
Ministry of Research & Innovation joins founding partners University of Toronto and Janssen Inc., and new partners Evotec AG, MaRS Innovation and Ontario Centres of Excellence, to advance treatments for neurological disorders and develop early-stage biotech companies
TORONTO and PHILADELPHIA (June 16, 2015)— Toronto’s neuroscience efforts to find new drugs to treat and manage brain disorders — specifically, mood disorders and Alzheimer’s disease — took another step forward as the Government of Ontario’s Ministry of Research and Innovation announced a $1 million contribution to the Neuroscience Catalyst consortium, bringing the total raised for the open innovation fund to $3.7 million. Reza Moridi, Minister of Research and Innovation and Minister of Training Colleges and Universities, announced the contribution at the 2015 BIO International conference in Philadelphia during the opening of the Ontario pavilion.
“We are pleased to support this collaborative innovation model which will accelerate the development of better treatment options for people with neurological disorders,” said Minister Moridi. “Partnerships between universities, academic hospitals, research institutes, industries and government are key to positioning Ontario as a global leader in Life Sciences.”
Founded by the University of Toronto (U of T) in partnership with Janssen Inc. and facilitated by Johnson & Johnson Innovation, the Neuroscience Catalyst consortium is using the Toronto research community’s well-established strengths in neuroscience to identify promising early-stage molecules and technologies through an open innovation model. The consortium aims to combine expertise to enable and accelerate the translation of basic sciences through to start-up companies and investor partnerships.
“We all want the next generation of solutions that are so desperately needed by patients and their families,” said Professor Ruth Ross, director of the Centre for Collaborative Drug Research at U of T. “In Canada, mood disorders such as depressive disorder and bipolar disorder affect about 10 per cent of the population. Alzheimer’s disease affects more than 745,000 Canadians. The need is urgent and this unique open collaborative partnership will allow us to rapidly develop new treatments.”
Other partners joining the project include MaRS Innovation, which introduced the partners to the Ministry of Research & Innovation and led the early conversation; Evotec, a global, high-quality provider in the drug discovery field; and Ontario Centres of Excellence (OCE), which is administering the funding.
TORONTO, ON (April 23, 2014) — MaRS Innovation congratulates the Federal Government’s deepened commitment to support Canadian research and innovation, particularly in the healthcare sector. In particular, the $42 million over five years dedicated to support the Canadian Centre for Aging and Brain Health Innovation at Baycrest Health Sciences, which includes $32 million in support from the Federal Economic Development Agency for Southern Ontario (FedDev).
Baycrest is a founding member institution of MaRS Innovation.
“As a Baycrest partner and long-time champions of the commercialization potential of its world-class science in brain and geriatric health care, MaRS Innovation welcomes this news,” says Dr. Raphael (Rafi) Hofstein, president and CEO. “We look forward to advancing existing neuroscience projects in partnership with Baycrest, such as The Virtual Brain, and to collaborating on new start-up companies and licenses related to dementia and other neurodegenerative diseases.”
Other promising budget allocations for the innovation sector include:
Researchers working in orphan indications, immuno-oncology, respiratory diseases, diabetes, and other key areas invited to submit a brief Statement of Interest
Successfully run in November 2013 and March 2014, the MI-IAP allows researchers to easily determine whether an industry partner is interested in co-developing their technologies. The application process is deliberately brief at the outset.
MaRS Innovation is a My Virtual Dream event sponsor and commercialization partner
Toronto, ON (January 12, 2015) – Baycrest Health Sciences’ dazzling brain science exhibit from 2013 Scotiabank Nuit Blanche will be on show at the Ontario Science Centre’s BRAINFest, Jan. 17-18.
My Virtual Dream is an innovative and interactive live performance experience at the intersection of science, art and music. The installation will enable participants to use their brain waves to communicate with each other through an immersive audio and visual expression that will be projected onto video screens.
“Participating at BRAINFest is a great way to share Baycrest’s renowned strengths in cognitive neuroscience in a highly artistic and interactive way with the public,” says Dr. Randy McIntosh, vice-president of Research and Director of Baycrest’s Rotman Research Institute. “Baycrest wishes to thank the Ontario Brain Institute for bringing My Virtual Dream into the Ontario Science Centre and to MaRS Innovation as our key collaborative partner.”
The concept for My Virtual Dream is inspired by an ongoing international project led by Dr. McIntosh and the Rotman to build a virtual, functional brain – a research and diagnostic tool that could one day revolutionize brain healthcare.
The installation, created by Baycrest and the University of Toronto for Nuit Blanche 2013, was a huge hit with fans of the festival. It also represented an extraordinary neuroscience experiment that explored how people can collectively synchronize their brain waves to co-create a multi-sensory environment that merges art, science and technology. In a single night, Rotman researchers collected brain data from over 500 people who signed on to be research subjects.
“Research labs across Ontario are full of ingenious – and even life-saving – inventions. Unfortunately, many of them never make it to market,” writes Wendy Leung in “These six great neuroscience ideas could make the leap from lab to market” in the November 20, 2014 edition of the Globe and Mail.
MaRS Innovation, which was created to help researchers solve exactly this problem, has a project with Holland Bloorview Kids Rehabilitation Hospital that was featured in Leung’s article. Asim Siddiqi founded the anxiety meter app for children with autism.
Siddiqi recently competed in the Ontario Brain Institute’s OBI Entrepreneurs Program, funded in part by the Ontario Centres of Excellence.
Here’s an excerpt:
As much as 80 per cent of children with autism suffer from anxiety, but they often have trouble recognizing and communicating their anxiety states, Siddiqi explains. “Just like we sometimes have difficulty ourselves recognizing when we’re kind of stress-eating and things like that, they have it a little worse than we do.”
Using sensors on the body, Dymaxia’s anxiety meter picks up physiological signals, such as heart rate and skin conductance – or the amount of electric current that passes through sensors on the skin, which increases with stress and body temperature. It then processes those signals and provides feedback of the child’s anxiety state in real time on a mobile phone or tablet.