Talk

Cellular reprogramming to enable the precise and scalable manufacturing of human cells for therapeutic applications

This presentation shows how precision cellular reprogramming enables the precise and scalable manufacturing of human cells for therapeutic applications. Davenport highlights how having access to a reliable and consistent source of human cells is a potential game changer for cell therapies.
Explore ioCells
Cellular reprogramming to enable the precise and scalable manufacturing of human cells for therapeutic applications

Dr Alex Davenport

Senior Scientist

bit.bio

This presentation shows how precision cellular reprogramming enables the precise and scalable manufacturing of human cells for therapeutic applications. Davenport highlights how having access to a reliable and consistent source of human cells is a potential game changer for cell therapies.
Cellular reprogramming to enable the precise and scalable manufacturing of human cells for therapeutic applications

Dr Alex Davenport

Senior Scientist

bit.bio

Presenting key examples from external partners and collaborators, Davenport demonstrates how bit.bio’s core technology, opti-ox, has been applied to created megakaryocytes, myogenic precursors and astrocytes.

Watch now to discover how bit.bio’s core technology:

  • provides a solution to the bottlenecks of current cell therapies
  • unlocks the potential of iPSCs for therapeutic applications
  • has been applied to generate functional cells which have been validated in vivo

 

Explore ioCells

Related pages

News Read our latest updates and press coverage
Our platform Discover the cell identity coding platform behind our cells
Join us Explore the latest roles at bit.bio