In the last decade, the science of cell therapy and regenerative medicine has made remarkable progress. Work in this area has also resulted in numerous engineering successes, enabling sophisticated tools that open the door to new approaches for discovery and development of therapeutics. Particularly noteworthy is the recent progress in cell and molecular biology, including in stem cell research and gene editing. In this webinar, we will hear about new tools and the new directions they make possible as well as how each is being commercialized.
How can small molecules be identified that evoke cell or tissue regeneration by design? How can we engineer cells and tissue-growth in situ with a structure suitable for implantation? How can we physically gain access to the interior of cells for both discovery and engineering purposes? And how can the immune system be mapped with single-cell biology to accelerate discovery?
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Thomas Kochan George Maverick Bunker Professor of Management, Co-director Institute for Work and Employment Research
AI is transforming many industries. But addressing the full cycle, from development through deployment, requires key system engineering building blocks. Without these frameworks, efforts can be costly and unsuccessful. Learn how an AI systems engineering approach can avoid implementation pitfalls in this live webinar—a preview of the upcoming live virtual course  AI Strategies and Roadmap: Systems Engineering Approach to AI Development and Deployment.
Mining of the Future
Song Han Assistant Professor, Department of Electrical Engineering and Computer Science, MIT EECS
George R. Ricker Principal Investigator, Senior Research Scientist, MIT Kavli Institute for Astrophysics and Space Research