Science and Research Committee on Dec. 5th, 2022

They are huge. First of all, with quantum, we're seeing big shifts in the use of moving—

There's no question that we need strong universities across the country. However, there's also no doubt that we need pillars in order to advance research. In my view, we need both.

The problem is quite simply the size of investments. Ideally, we would have enough money to develop the research sector across Canada.

In fact, one of the strengths of Canada is that we have really strong universities across the country. However, at the level of financing we currently have, there's no doubt that access to it is going to be limited.

It seems to me that the key is what our leading universities do, as in the case of Dalhousie's leadership on our oceans: They involve other universities in the region. Ideally what we would be moving toward is clusters across the country. This is increasingly the case, so we can have good connections and good collaborations between smaller, mid-sized and larger universities, all of which are optimizing their own strengths to make an even greater collective effort.

My sense is that inevitably we need leading universities at the same time as we need diversity. Certainly 15 members is not enough for a country like Canada. We need, in fact, 15 hubs or regions to which all of our universities are actively contributing. That is going to take a much larger investment.

Oh, oh!

That's such an important question.

As a historian, I always try to understand these things historically. I focused on the debate in the mid-1990s because they asked that question. They said Canada was a small country and that we were obviously not going to be self-sufficient in everything, so they asked, “What do we do?” The solution, the answer to that question, was to ensure that we were domestically self-sufficient in certain areas and to work hard such that we had access to and were connected to everything else internationally so we could call upon it. I think it's access to that international pool of expertise, capacity and so on that requires people who are actively part of these global networks. So much of this is an effort to tap into a global network of people.

In the case of vaccine production and the immediate need, there were two questions.

On the one hand, we needed to buy a lot of vaccines and acquire a lot of vaccines, but we didn't know what to buy. At that time it was not obvious. There were dozens of potential candidates, so you had to have experts who were able to look at the global possibilities. I think with the way it worked, the committee chose six vaccines, and then five of the six ended up being the top ones that in fact saved Canada and saved countries around the world. You therefore needed the first level of these networks to pay off.

The second thing was the actual production that led to Canada's attraction of Moderna. We said—

This is the best time I've experienced this year.

Thank you very much. I really appreciate it.

Oh, oh!

Thank you, Madam Chair.

It's a pleasure to be back with the committee this evening.

My name is Stéphanie Michaud. I'm joined by our scientific director, Dr. John Bell, an internationally recognized research scientist in the development of immunotherapies as cancer treatments. Together, we work closely with partners from multiple sectors, all aligned with our ambitious vision: to make all cancers curable diseases.

When we hear the word “moon shot”, it is often prefaced by the word “cancer”, reflecting the indisputable reach of this disease, which affects one in two Canadians and leads to the death of one-quarter of our population. That number is increasing as we speak due to pandemic-related delays.

There is also a cost, which was $26.2 billion in 2021 alone, with $4.8 billion of that amount representing the direct out-of-pocket costs that are borne by cancer patients and their families. Cancer is a grand challenge for Canadians, anchored in unaddressed real-world needs. This fits the Brookfield Institute's definition, which is laid out in “Canada's Moonshot”, as previously noted by other witnesses at this committee.

The U.S. and the EU are treating cancer as a moon shot by investing significant sums of money and setting ambitious goals to move the needle. Canada has also invested in a mission-oriented type of approach—albeit at a much smaller scale—with BioCanRx. With Canada's support, BioCanRx is tackling one of Canada's wicked problems: the lack of coordination and support for translational research and biomanufacturing. In so doing, Canada's investment has allowed BioCanRx to achieve remarkable success in the development of novel immunotherapies and deliver results for Canadian patients today.

As I am sure you can appreciate from the work your committee has already done to date, the hallmarks of a successful moon shot program include building cross-disciplinary teams of thought leaders, creating a nimble, independent decision-making body that manages a portfolio of innovative projects with clearly defined deliverables, and providing transformative and multi-year funding.

With these concepts in mind, in 2015 we created BioCanRx, a network of centres of excellence to develop, test and provide Canadian cancer patients novel and effective treatments for cancer. Our focus was on the burgeoning field of immunotherapy, which uses strategies to train a patient's own immune system to recognize the cancerous form and destroy cancers within their body. We built upon the world-class science being developed in Canada and the existing Canadian infrastructure to build an innovative research program, moving a portfolio of Canadian discoveries into products that can be provided to Canadian patients in need.

The BioCanRx translational research engine is nimble and able to respond to discoveries made around the world in the fast-moving field of cancer immunotherapy. One example is the development of personalized engineered immune cells, or so-called CAR T cells. In 2017, BioCanRx started a cross-country, made-in-Canada CAR T program. By 2019, we were treating Canadian cancer patients who otherwise would have no access to this innovative cancer treatment.

With her permission, I want to tell you the story of Camille Leahy, a 37-year-old single mother in Newmarket, Ontario. She was diagnosed with leukemia at the beginning of the pandemic. She received an aggressive chemotherapy regimen that failed her, followed by a gruelling stem cell transplant that also failed her. She was essentially at the end of life with no other therapeutic options available to her. Camille enrolled in our BioCanRx-sponsored, made-in-Canada CAR T trial and is alive and well today and able to enjoy life with her 14-year-old daughter.

There are many more Canadians like Camille who are thankfully to still be with us today because of the transformative work BioCanRx has done.

With the sunsetting of the networks of centres of excellence program and the rapidly approaching end of our runway in March 2023, we are extremely concerned that we will no longer be able to support the preclinical to clinical development at the pace and cost required to rapidly advance technologies for those who need them the most—Canadian cancer patients. We urge the government to consider funding organizations that have a demonstrated track record in addressing an unmet, real-world need in Canada. BioCanRx is a current-day successful implementation of the government's biomanufacturing and life sciences strategy for the development of cancer immunotherapies. I would argue it is a great model for building a Canadian moon shot program.

Thank you for the opportunity to speak to you today.