Award details

Expansion of human multipotent stem cells in aqueous/aqueous two phase systems

ReferenceBB/K011006/1
Principal Investigator / Supervisor Professor Andrzej Pacek
Co-Investigators /
Co-Supervisors
Institution University of Birmingham
DepartmentChemical Engineering
Funding typeResearch
Value (£) 284,716
StatusCompleted
TypeResearch Grant
Start date 02/01/2014
End date 01/01/2017
Duration36 months

Abstract

The highly innovative study proposed here will develop a novel isotonic, dispersed aqueous/aqueous two phase system (ATPS) for the reproducible expansion and harvest of multi-potent human mesenchymal stem cells (hMSC) at larger scales in stirred tank bioreactors. The approach to be tested here moves away from the need to use harsh enzymatic treatments to harvest cells from surfaces, relying instead on the controlled disassembly of the 'temporary surface' that the cells are attached to. The successful conclusion of this exciting project will integrate two processes; cell growth and subsequent harvest thereby revolutionising adherent cell culture in stirred bioreactors where a fully functional cell forms the basis of the product necessary for regenerative medicine purposes.

Summary

In order that people can live longer and more active lives there is a need to develop new affordable and effective medicines. In some cases cells that we have within our own bodies can be used to repair damaged tissues. However, in adults, this repair mechanism is very limited and often inefficient. Stem cells produced by the body are those that can go on to make all of the different types of cells in the human body and these so called 'stem cells' when harvested have the potential to repair many types of diseased tissue in adults. Although stem cells can now be grown in laboratories, one highly trained person can only grow a few million cells in a week. Since it takes 5 billion heart cells to repair the heart muscle of a heart-attack patient, growing these cells at laboratory scale is useful for research but not for treating multiple patients in practise. This project aims to combine the expertise of both biologists and engineers, to create scalable systems for the "manufacture" of large numbers of stem cells so the potential of stem cell therapies can be realised. Once enough stem cells can be routinely grown and harvested, it is more likely that they can begin to treat a variety of diseases.

Impact Summary

Quite simply, if sucessful, the impact on adherent cell culture technology would be to revolutionise adherent cell culture where a fully functional cell is the product such as in regenerative medicine bioprocessing. The highly innovative study proposed here will develop a novel isotonic aqueous/aqueous two phase (ATPS) based microcarrier 'particle type' system for the reproducible scalable expansion and harvest of multipotent human mesechymal stem cells (hMSC). The approach to be tested here moves away from the need to use harsh enzymatic treatments to harvest cells from surfaces relying instead on the controlled removal of the 'temporary surface' from under the cell. Therefore this research will be of benefit for researchers and industrialists in the pharmaceutical sector world-wide so the rights to such IP would carry considerable prestige and be worthy of further exploitation.
Committee Not funded via Committee
Research TopicsIndustrial Biotechnology, Stem Cells
Research PriorityX – Research Priority information not available
Research Initiative Bioprocessing Research Industry Club (BRIC) [2006-2012]
Funding SchemeX – not Funded via a specific Funding Scheme
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