Engineering Change in Medicine

Engineering Change in Medicine

Starting Here at 7PM EST on December 7th.

On Wednesday December 7th at 7PM EST enjoy the live webcast of Engineering Change in Medicine, a public lecture by Dr. Molly Shoichet. Imagine going beyond treating the symptoms of disease and instead stopping it and reversing it. This is the promise of regenerative medicine.

In her Perimeter Institute public lecture, Prof. Molly Shoichet will tell three compelling stories that are relevant to cancer, blindness and stroke. In each story, the underlying innovation in chemistry, engineering, and biology will be highlighted with the opportunities that lay ahead. To make it personal, Shoichet’s lab has figured out how to grow cells in an environment that mimics that of the native environment. Now she has the opportunity to grow a patient’s cancer cells in the lab and figure out which drugs will be most effective for that individual.

In blindness, the cells at the back of the eye often die. We can slow the progression of disease but we cannot stop it because there is no way to replace those cells. With a newly engineered biomaterial, Shoichet’s lab can now transplant cells to the back of the eye and achieve some functional repair. The holy grail of regenerative medicine is stimulation of the stem cells resident in us. The challenge is to figure out how to stimulate those cells to promote repair.  Using a drug-infused “band-aid” applied directly on the brain, Shoichet’s team achieved tissue repair.

These three stories underline the opportunity of collaborative, multi-disciplinary research. It is exciting to think what we will discover as this research continues to unfold.

Use the hashtag #piLIVE to post questions via Facebook or Twitter!

About Molly Shoichet

Molly Shoichet holds the Tier 1 Canada Research Chair in Tissue Engineering at the University of Toronto.  She has published over 530 papers, patents and abstracts and has given over 325 lectures worldwide. She currently leads a laboratory of 25 and has graduated 148 researchers. She founded two spin-off companies, is actively engaged in translational research and science outreach.