Biomedical device companies will commit to at least a three-year, renewable membership in MIMTeC, which entitles them to propose, review and vote on research projects that may benefit the entire group. Device manufacturers are also eligible for affiliate membership in the centre, which will allow them to stay up to speed on the emerging technologies they will need to produce future devices.
"By collaborating with academia to conduct unbiased research", explained centre director Balakrishna Haridas, PhD, "industry stakeholders can share the cost of developing new design methodologies and experimental research tools applicable to each company's product development pipeline. MIMTeC is a national resource in that, when the research is complete, all industry partners will have access to the technologies."
Dr. Haridas, associate professor of biomedical engineering, spent more than 10 years designing biomedical devices for companies like Medtronic, Boston Scientific and Ethicon Endo-Surgery prior to joining UC. The centre is the result of two years of collaboration between UC's biomedical engineering department and the Center for Surgical Innovation, whose executive director, Chuck Doarn, will serve as administrative director of MIMTeC.
Current members of MIMTeC include Ethicon-Endo Surgery, Procter and Gamble, Boston Scientific, Medtronic, Cordis Corporation, the United States Army and Greatbatch Inc. Dr. Haridas said he expects the centre to fund about six projects a year, split equally between UC and its institutional collaborator, the University of Minnesota. Projects will increase as more companies join and contribute funds to the centre.
Most projects will fall within four broad research themes - tools and algorithms to measure in vivo properties of tissues and organs; laboratory and computational models of tissues and device interactions that mimic in vivo conditions; instrumentation design for image-guided interventions; and miniature embedded sensors - nanotechnology - used to measure the biophysical properties of device-tissue interactions during surgery.
"We're looking at specific design methods and experimental techniques that can be used to test new interventions, for example, computer-simulated scenarios to predict how human tissue responds to a device made of a specific material, or non-invasive methods to determine the physics of interactions between device and tissue", explained Dr. Haridas.
These themes meet the centre's goal of developing fundamental enabling technologies that member companies can use to develop minimally invasive interventions. "It's a great model", Dr. Haridas added, "because it gives our industry partners access to unbiased research and the university countless opportunities for students to get hands-on training in biomedical research relevant to industry."
"At the same time, the underlying model for the centre permits timely public disclosure of research in the form of publications and allows students working at the centre to disseminate the research results." Dr. Haridas said the benefits to UC go far beyond the increased royalty licenses acquired through the research projects.
"Tremendous synergy will be built through this centre", he stated. "And it's not just within the biomedical engineering department. It's collaboration between the colleges of engineering and medicine, between industry and academia, between our students and industry."
"MIMTeC builds upon existing partnerships and collaborations, which use UC research core facilities like the Center for Surgical Innovation", added Chuck Doarn. "The MIMTeC partnership provides a platform for innovation and discovery, bringing industry, government and academia closer together."
Being an NSF-designated research centre also allows UC to apply for much larger grants from the federal government that would allow the university to obtain matching funds from industry for co-operative research projects. Increased research will also provide training opportunities for students as they prepare for careers in the biomedical industry.
"The expanded learning opportunities that MIMTeC provides will essentially allow us to mold the next generation of the biomedical engineering workforce", added Dr. Haridas. Dr. Haridas, Chuck Doarn and the others currently conducting research projects for MIMTeC have no financial interest in the centre's member companies.