Manually and automatically produced pellet cultures of human primary chondrocytes: A comparative analysis |
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Authors: | Ricarda Lehmann Carolin Gallert Thomas Roddelkopf Steffen Junginger Anika Jonitz‐Heincke Andreas Wree Kerstin Thurow |
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Affiliation: | 1. Center for Life Science Automation (celisca), University of Rostock, Rostock, Germany;2. Institute of Automation, University of Rostock, Rostock, Germany;3. Department of Orthopaedics, Biomechanics and Implant Technology Research Laboratory, University Medicine Rostock, Rostock, Germany;4. Institute of Anatomy, University Medicine Rostock, Rostock, Germany |
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Abstract: | Cartilage defects are often associated with restriction of the locomotor system. New methods are required to investigate cartilage tissue and for the repair of cartilage tissue. 3D cultures are promising due to better simulation of in vivo conditions. The aim of this study was to provide a model system for studying cartilage tissue. We solved this problem by automated production of pellet cultures of human primary chondrocytes in media with and without antibiotics using the Biomek® Cell Workstation and consequent automated bioscreening with a high‐throughput screening system, and compared with the regular manual processes. The Biomek® Cell Workstation allows the cultivation of different cell types (suspensions cells and adherent cells) and 3D cell cultures (pellet cultures, alginate beads and spheroid cultures). The proliferation was analyzed by DNA quantification and compared with the EZ4U proliferation assay as a new tool for pellet cultures. The toxicity was evaluated by the detection of ubiquitous adenylate kinases. The proliferation increased from day 14 until day 35 and was associated with a decrease in the cytotoxicity. The comparative analysis showed similar results for manual and automated processes. We concluded that the manual methods can be replaced by automated processes (pellet manufacturing and screening), which would allow large‐scale procedures to support studies on cartilage regeneration. |
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Keywords: | 3D cell culture Automated cell culturing Chondrocytes Life science automation (LSA) Pellet culture |
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