Health Committee on Oct. 30th, 2012

Yes, there are a lot of discoveries made that with the right environment could be successful in a Canadian or international context. The SBIR program, that the other two witnesses have mentioned, works well not because it's fundamentally different from Canada's IRAP but because there is capacity among the people who run the SBIR program to actually evaluate technology and make rational decisions about what might be successful and what might not be. We don't have that capacity in Canada. I think the reason IRAP fails is that we don't have that capacity. The concept is good, but the implementation is bad because of a lack of capacity.

How do we train people in this country to do that sort of thing? We have universities. They produce hundreds if not thousands of Ph.D.s every year. Some of them could do this, but if we don't have receptors for them in this country, they will go somewhere else, and they do. Capital flows across borders and so does intellect.

It started with curiosity, of course, because no company would want to market a product that they didn't know existed yet. This is the role of fundamental research, to create new products or new ideas that can be turned into products that companies don't even know exist yet.

In my case it was very much a push scenario. It was a push out of the lab. We did curiosity-based research. We showed that MRI at these very high magnetic fields was actually useful for something. Then all the companies started to become very interested in it. In the very early stages they were happy to buy components of their systems—these RF coils, radio-frequency coils, that I talked about—until they developed the capacity themselves or were able to invest in companies like USA Instruments that had also developed that capacity.

We were leaders. We were the first four ultra-high field MRI labs in the world, two of which were with the United States government at the NIH, National Institutes of Health, and the University of Minnesota. We could have captured some of that market here, but there was no receptor for the technology in Canada.

We tried our best. We made our own company. I was the shipping clerk for three years. I filled out all the export forms. We never sold a product in Canada. We sold in Japan, in Germany, in the United States, in England, and all over the world. Of course, I have a day job, so at the end of that we had to stop, and other companies took up the slack.

The problem is, why couldn't we have made a real company out of it? It takes capital. If you don't have capital, venture capital, banks—I don't believe it's the role of government to do this. It's the role of business.

I think Health Canada is pretty good. They too have problems with evaluative capacity, just like business. For example, the MRI guidelines in Canada have not been updated since the mid-1980s. However, we have lots of these very high field magnets in Canada now because Health Canada essentially defers to the FDA on this. Even though on paper in Canada you should not have an MRI device that is higher than two tesla—and we have at least 63 Tesla machines in the country—Health Canada is prudent enough to say that since another agency has approved this, they agree with that and they will import them and use them. I don't see how Canada is the big barrier in all of this.

Sure.

Since I interact with the pharmaceutical industry a lot, I get to see it. The pharmaceutical industry will have biologists, chemists, and biochemists in the same building. When you, as a biologist, have a problem that needs a chemist's answer, you go down the hall and speak to them. That facilitates that. In Canada there may be a biology department and on the other side of campus there may be a chemistry department, but they barely know each other exists. I'm not sure how to do this because universities have been in their same structure since the 1800s, and they're not noted for radical change. It would be nice for some institutes to be formed, say, which may have a particular disease focus or particular mandate in which they would take people from different disciplines and put them in as a test case.

You can't get rid of me directly.

Deputy Minister Yeates shifted the meeting to 12:30. That means I can stay another 20 minutes. We just received an e-mail. I have a little more time. I'll be leaving on time.

Thank you.

I can stay until 12:15 or 12:20.

MaRS is an interesting idea and there are many aspects of MaRS that I like. Other times I think it's from Venus.

Within MaRS, we have the example of the university hospitals at the University of Toronto also working with the university. I always liked that. University hospitals, of course, can have their own research institutes and their own research efforts, which could be distinct and different from the universities with which they're associated. I put a lot of hope and stock in teaching hospitals and university hospitals as places in which this silo mentality to which I have referred is broken down a bit more successfully. Within a teaching hospital, a university hospital, you can have opportunities where you do have multidisciplinary people working, and so I think that could be useful.

Yes.

That's a dangerous thing. I would hate to think that the research budget has x number of dollars in it, and so to solve the problem we're going to take all the money from the basic science people and whip it over to the applied people. The end result is that we'll just gut basic science, and we've already said that basic science is particularly strong. I don't really think that a massive reallocation of existing funds is going to solve a problem. It's going to create new ones.

We keep saying how we have very good research, and we do, and I think we should keep doing the research we're doing. We do that right. The problem is in its translation into products. Ultimately, it would be nice to somehow establish an environment in which the people at universities who want to do this could do it, but I don't want CIHR to turn into a drug company. That's not its role.

I have done a little work. I have a colleague who sits three offices away from me, Dr. Blaine Chronik, who's also a Canada research chair. He does a lot of this work for Health Canada.

The reality is there is virtually no harmonization with the EU, or even within North America, on devices, drugs, or even electrical systems. We have the CSA. It's considered one of the stamps of approval internationally. In Europe they have CE. In the United States they have UL, which is Underwriters Laboratories. When we get a piece of medical equipment from the United States and it has UL on it, we have to spend thousands of dollars getting CSA approval before we can plug it into the wall at our university, because those are the provincial and federal standards.

I'm afraid that red tape has a long way to go before it's actually amenable to the exchange of all these things in any kind of seamless manner.

Absolutely. I know MaRS very well and have a number of colleagues who have worked with it. It's a model, as I think Dr. Weaver said, but it's not the only model.

In the United States, as you mentioned, they tend to do things very differently. The Stanford Research Institute was several hundred acres of bare, barren land next to Stanford. It's an area we now call Silicon Valley, but it wasn't built as anything other than a place to house inventive people who wanted to start companies. Stanford didn't have a whole lot of say. They just had an IP policy that allowed people to run with the patents. The venture capitalists, who are all over Palo Alto now because of that, were the people who provided the seed money. It didn't take a lot of artificial constructs like MaRS or the NRC kind of development programs we have to do this.

I think you can build these, but if there's no actual company, no receptor there for the technology and no way to fund a receptor, it doesn't matter. You can have a beautiful atrium, and that's all it is.