Webinar

Advances in cellular reprogramming: from stem cells to printed tissues

A scalable technology platform capable of producing consistent batches of every human cell has the potential to unlock a new generation of medicine: it will enable research and drug discovery to move on from inappropriate models and work with the cells that actually are affected by human disease.
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Advances in cellular reprogramming: from stem cells to printed tissues

Prof Hagan Bayley

Professor of Chemical Biology

University of Oxford

Advances in cellular reprogramming: from stem cells to printed tissues

Dr Mark Kotter

CEO | Founder

bit.bio

A scalable technology platform capable of producing consistent batches of every human cell has the potential to unlock a new generation of medicine: it will enable research and drug discovery to move on from inappropriate models and work with the cells that actually are affected by human disease.
Advances in cellular reprogramming: from stem cells to printed tissues

Prof Hagan Bayley

Professor of Chemical Biology

University of Oxford

Advances in cellular reprogramming: from stem cells to printed tissues

Dr Mark Kotter

CEO | Founder

bit.bio

This webinar discusses

  • Today’s challenges in CNS research, disease modelling and drug discovery: limited access to reliable human models.
  • How a novel cellular reprogramming technology, opti-ox, resolves the inconsistency of cellular reprogramming and enables the precise, consistent, and scalable production of human cells.
  • The fabrication of synthetic, printed and hybrid materials, and their applications.

 

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