Process development for expansion of human mesenchymal stromal cells in a 50L single-use stirred tank bioreactor

The application of cell-based therapeutics requires development of refined and scalable culture processes. Stirred tank bioreactors facilitate growth of human mesenchymal stromal cells (hMSC) while meeting these needs. A process for expansion of hMSCs in a 50 L bioreactor was developed. Parameters evaluated include agitation rate, pH and dissolved oxygen (DO) control set-points, and media formulation. The pH and DO levels were determined empirically in 3 L bioreactors prior to implementation at the 50 L scale. The agitation operating range for microcarrier cultures in the 50 L bioreactor was calculated based on theoretical and empirical analyses of solid suspension and shear limitations. Additionally, small-scale experiments demonstrated that hMSC growth was improved in αMEM supplemented with human platelet lysate in comparison to DMEM supplemented with FBS. A 43-fold expansion of harvested hMSCs was achieved in 11 days in a 50 L bioreactor incorporating these process improvements. Cells expanded in the bioreactor exhibited the expected surface marker expression, trilineage differentiation potential, T cell growth inhibition and indoleamine 2,3-dioxygenase inducibility. The results highlight that identification of optimal pH, DO, agitation rates and culture medium for microcarrier-based bioreactor expansion of adherent cells is paramount to developing a platform to support cell-based therapies.