4.12.22-Health-Science-Jongyoon-Han

Conference Video|Duration: 26:33
April 12, 2022
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    One of the critical challenges in cell therapy is the lack of reliable, specific, and non-destructive quality attributes, which are sorely needed for all aspects of biomanufacturing of these cells, including donor selection, in-process quality monitoring, and release testing. Most biological and biochemical assays are destructive or perturbative, which limits their utility, especially for autologous cell therapy. In this talk, I will showcase some of the emerging ideas of label-free, biophysical critical quality attributes (CQAs) we have been working on, including magnetic, electrical, and mechanical signatures of cells. Once the strong correlation with biochemical cell phenotypes, these will serve an important role to improve the overall production of both allogeneic and autologous cell therapy products.
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  • Video details
    One of the critical challenges in cell therapy is the lack of reliable, specific, and non-destructive quality attributes, which are sorely needed for all aspects of biomanufacturing of these cells, including donor selection, in-process quality monitoring, and release testing. Most biological and biochemical assays are destructive or perturbative, which limits their utility, especially for autologous cell therapy. In this talk, I will showcase some of the emerging ideas of label-free, biophysical critical quality attributes (CQAs) we have been working on, including magnetic, electrical, and mechanical signatures of cells. Once the strong correlation with biochemical cell phenotypes, these will serve an important role to improve the overall production of both allogeneic and autologous cell therapy products.
Locked Interactive transcript

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