iQue® Poster Presentation Snapshots
Authors: Dr. Daryl Cole, Scientist, Analytics, Sartorius | Last updated: 13 September 2023
Induced pluripotent stem cells (iPSCs) are intrinsically valuable due to their unique characteristics and the control they afford to enable researchers to investigate early stages in cellular development.
The major benefits of iPSCs are the variety of cell types they can be differentiated into and their capacity for infinite expansion. This flexibility provides opportunities for development of cell and tissue models in both 2D and 3D for pharmacological testing, cancer, research, organoid modelling of tissues and neurodevelopmental biology.
iPSCs are increasingly used in translational applications, targeting eventual clinical use via autologous cell therapies and individualized medicine approaches.
Despite their broad application potential, iPSCs are high maintenance, expensive, and require constant monitoring to ensure they maintain pluripotency, viability, and homogeneity.
Monitor and characterize iPSC culture and differentiation using Advanced Flow Cytometry and Live-Cell Analysis
Flow Cytometry to Evaluate iPSC Pluripotency During Cell Line Selection and Differentiation
Characterization and Optimization of Induced Pluripotent Stem Cell Culture Using Advanced Flow Cytometry and Live-Cell Analysis
A spectrally distinct dye that is taken up by cells with compromised membranes and excluded by healthy cells with intact membranes.
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