Manufacturing and banking of mesenchymal stem cells
S Thirumala, WS Goebel, EJ Woods - Expert opinion on biological …, 2013 - Taylor & Francis
S Thirumala, WS Goebel, EJ Woods
Expert opinion on biological therapy, 2013•Taylor & FrancisIntroduction: Mesenchymal stem cells (MSC) and MSC-like cells hold great promise and
offer many advantages for developing effective cellular therapeutics. Current trends indicate
that the clinical application of MSC will continue to increase markedly. For clinical
applications, large numbers of MSC are usually required, ideally in an off-the-shelf format,
thus requiring extensive MSC expansion ex vivo and subsequent cryopreservation and
banking. Areas covered: To exploit the full potential of MSC for cell-based therapies requires …
offer many advantages for developing effective cellular therapeutics. Current trends indicate
that the clinical application of MSC will continue to increase markedly. For clinical
applications, large numbers of MSC are usually required, ideally in an off-the-shelf format,
thus requiring extensive MSC expansion ex vivo and subsequent cryopreservation and
banking. Areas covered: To exploit the full potential of MSC for cell-based therapies requires …
Introduction: Mesenchymal stem cells (MSC) and MSC-like cells hold great promise and offer many advantages for developing effective cellular therapeutics. Current trends indicate that the clinical application of MSC will continue to increase markedly. For clinical applications, large numbers of MSC are usually required, ideally in an off-the-shelf format, thus requiring extensive MSC expansion ex vivo and subsequent cryopreservation and banking.
Areas covered: To exploit the full potential of MSC for cell-based therapies requires overcoming significant cell-manufacturing, banking and regulatory challenges. The current review will focus on the identification of optimal cell source for MSC, the techniques for production scale-up, cryopreservation and banking and the regulatory challenges involved.
Expert opinion: There has been considerable success manufacturing and cryopreserving MSC at laboratory scale. Surprisingly little attention, however, has been given to translate these technologies to an industrial scale. The development of cost-effective advanced technologies for producing and cryopreserving commercial-scale MSC is important for successful clinical cell therapy.
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