Comparative flow cytometry immunophenotyping of ASCs expanded in conventional flasks versus automated bioreactors
Hiva Alipour, Guoqiang Ren, Morten Brøndum Sørensen, Sara Aghazadeh, Zongzhe Xuan, Fereshteh Dardmeh, Simone Riis Porsborg, Trine Fink, Qiuyue Peng

TL;DR
This study compares two methods for growing fat-derived stem cells and finds that one method better preserves cell diversity.
Contribution
Demonstrates that hollow fiber bioreactors maintain greater immunophenotypic heterogeneity in ASCs compared to traditional flasks.
Findings
ASCs expanded in HFB and TCP showed comparable growth rates but differed in marker expression.
HFB preserved CD274-positive and -negative subpopulations, while TCP favored CD201+ and CD274+ clones.
HFB supports broader clonal diversity, important for clinical-grade cell production.
Abstract
Adipose-derived stem cells (ASCs) hold significant promises for various regenerative approaches, necessitating the production of a substantial quantity of in vitro expanded ASCs for clinical applications. While ASC expansion is traditionally performed in tissue culture polystyrene (TCP) flasks, the Quantum Cell Expansion System, a hollow fiber bioreactor (HFB), offers an automated and closed system for cell expansion, presenting advantages over manual culture methods. In this study, we compared ASC cultures from a HFB system with traditional TCP flasks, focusing on immunophenotypes. ASCs from three donors were cultured and underwent equivalent population doublings in both systems. The cell number was counted to compare the growth rate. Furthermore, the individual expressions of 15 surface markers and their co-expression of 5 (CD73, CD90, CD105, CD166, and CD201) and 8 epitopes (CD34,…
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Taxonomy
TopicsMesenchymal stem cell research · Electrospun Nanofibers in Biomedical Applications · Pluripotent Stem Cells Research
