The first thing I'd like to clarify is that Japan has tried to produce technetium with a linear accelerator and it hasn't worked. Producing technetium with a cyclotron is not very efficient. We know that has been done in Europe too. So I would encourage the government to look at those studies that have already been published.
The second thing is that for that $28 million--$6 million was announced yesterday, and I think it was $22 million announced for McMaster--doing the math, we believe, based on some statistics we looked at two or three years ago in the Cancer Registry, that Canadians need about 125,000 PET scans a year. At $1,000 per PET scan, we could provide about 28,000 of these over the next three to four months. Hopefully in the next three to four months the technetium situation will be stabilized. The other aspect to it is that--let's face it--a bone scan is a wonderful tool, but it's not enough when we take care of patients. Why not take advantage of this crisis and deploy a diagnostic tool that is critical for the diagnosis, treatment, and follow-up of patients with cancer?