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MaRS Innovation selects University of Toronto’s Diabetic Wound Healing Technology as second commercialization opportunity

University of TorontoTORONTO (June 30, 2009) – MaRS Innovation (MI) and the University of Toronto (U of T) are pleased to announce that they have entered into an agreement to collaboratively commercialize a novel sustained release formulation of nitric oxide (NO) for applications in wound healing, including diabetic ulcers.

“There are 300 million diabetics worldwide, of which some 15 per cent develop troublesome foot ulcers. This wound healing technology is extremely exciting, making it an early commercialization opportunity that MaRS Innovation has identified as being a potential win for some 45 million diabetics globally,” said Dr. Raphael (Rafi) Hofstein, president and CEO of MaRS Innovation.

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MaRS Innovation selects Mount Sinai Hospital’s umbilical cord stem cell technology as first commercialization opportunity

Mount Sinai Logo (Bright Minds. Big Hearts. The Best Medicine.)TORONTO (June 29, 2009) – MaRS Innovation and the Samuel Lunenfeld Research Institute of Mount Sinai Hospital are pleased to announce that they have entered into an agreement to collaboratively initiate commercialization of an umbilical cord stem cell technology for potential treatment in cardiovascular disease, diabetes and neurological disorders.

Raphael Hofstein, president and CEO MaRS Innovation
Dr. Raphael Hofstein, president and CEO of MaRS Innovation

“With the Toronto area identified as a world-leading cluster in stem cell research, we are extremely excited to have identified this technology as our first commercialization opportunity,” said Dr. Raphael (Rafi) Hofstein, President and CEO of MaRS Innovation.

The technology – invented by Mount Sinai scientists Dr. Ian Rogers and Dr. Robert Casper – offers a proprietary method to create multi-potent stem cells (MPSCs) from human umbilical cord blood. With preclinical data demonstrating efficacy of MPSCs in diabetes, peripheral vascular disease (a complication of diabetes that can lead to amputation) and neurological conditions, the technology has significant potential to address multiple unmet medical needs.

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