Regenerative medicine (RM) represents a promising enabling technology to revolutionize healthcare. This said there are still major gaps between the commercial promise and the reality of the cell therapy sector of regenerative medicine. There is consensus to develop high through-put, automated technologies for the manufacture of RM products. Imaging methods will have the capacity to contribute to this technological gap for cell therapies and are particularly attractive to provide non-destructive monitoring with high spatial and temporal resolution. This work applied an automated, non-invasive phase contrast imaging platform (Cell-IQ) to measure, analyse and ultimately quantify image derived metrics for human embryonic stem cells (hESCs) a...
There is a foundational need for quality control tools in stem cell laboratories engaged in basic re...
Abstract Background Human embryonic stem cells (hESCs...
Tissue engineering and regenerative medicine are rapidly developing fields that use cells or cell ba...
Regenerative medicine is an exciting, rapidly moving field that promises to launch an entirely new i...
The emergence of medicinal indications for stem cell therapies has seen a need to develop the manufa...
It has been repeatedly proven that cell therapies can address many current unmet clinical treatment ...
Understanding the mechanisms behind the proliferation of Mesenchymal Stem cells (MSCs) can offer a g...
Label-free imaging uses inherent contrast mechanisms within cells to create image contrast without i...
The translation of laboratory processes into scaled production systems suitable for manu-facture is ...
For almost two decades it is claimed that cell-based therapies will revolutionize the field of medic...
Culture parameters including type of matrix, feeding regimes and media formulations have to be fine-...
Enabling stem cell-base therapies requires innovative solutions to close the gaps which exist betwee...
Aim: Commercial regenerative medicine will require large quantities of clinical-specification human ...
Regenerative medicine therapies hold enormous potential for a variety of currently incurable conditi...
Embryonic stem cells are promising cell sources for regenerative medicine and organ replacement afte...
There is a foundational need for quality control tools in stem cell laboratories engaged in basic re...
Abstract Background Human embryonic stem cells (hESCs...
Tissue engineering and regenerative medicine are rapidly developing fields that use cells or cell ba...
Regenerative medicine is an exciting, rapidly moving field that promises to launch an entirely new i...
The emergence of medicinal indications for stem cell therapies has seen a need to develop the manufa...
It has been repeatedly proven that cell therapies can address many current unmet clinical treatment ...
Understanding the mechanisms behind the proliferation of Mesenchymal Stem cells (MSCs) can offer a g...
Label-free imaging uses inherent contrast mechanisms within cells to create image contrast without i...
The translation of laboratory processes into scaled production systems suitable for manu-facture is ...
For almost two decades it is claimed that cell-based therapies will revolutionize the field of medic...
Culture parameters including type of matrix, feeding regimes and media formulations have to be fine-...
Enabling stem cell-base therapies requires innovative solutions to close the gaps which exist betwee...
Aim: Commercial regenerative medicine will require large quantities of clinical-specification human ...
Regenerative medicine therapies hold enormous potential for a variety of currently incurable conditi...
Embryonic stem cells are promising cell sources for regenerative medicine and organ replacement afte...
There is a foundational need for quality control tools in stem cell laboratories engaged in basic re...
Abstract Background Human embryonic stem cells (hESCs...
Tissue engineering and regenerative medicine are rapidly developing fields that use cells or cell ba...