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Robotic cell processing facility for clinical research of retinal cell therapy

Motoki Terada, Yu Kogawa, Yumiko Shibata, Michinori Kitagawa, S. Kato, Tomomitsu Iida, Tsuyoshi Yorimitsu, Akari Kato, Kenji Matsukuma, Tadao Maeda, Masayo Takahashi, Genki N. Kanda

2023SLAS TECHNOLOGY14 citationsDOIOpen Access PDF

Abstract

The consistent production of high-quality cells in cell therapy highlights the potential of automated manufacturing. Humanoid robots are a useful option for transferring technology to automate human cell cultures. This study evaluated a robotic cell-processing facility (R-CPF) for clinical research on retinal cell therapy, incorporating the versatile humanoid robot Maholo LabDroid and an All-in-One CP unit. The R-CPF platform consists of a robot area for handling cells and an operator area for the maintenance of the robot, designed with a clean airflow to ensure sterility. Monitoring the falling, floating, and adhering bacteria demonstrated that the required cleanliness and aseptic environment for cell manufacturing were satisfied. We then conducted cell manufacturing equivalent to the transplantation therapy of induced pluripotent stem cell (iPSC)-derived retinal pigment epithelial cells that met the clinical quality standards for transplantation. These results indicate that R-CPF is suitable for cell manufacturing purposes and suggest that utilizing the same robotic system in basic and clinical research can accelerate the translation of basic research findings into clinical applications.

Topics & Concepts

Cell therapyTransplantationInduced pluripotent stem cellRobotGood manufacturing practiceComputer scienceCellArtificial intelligenceMedicineBiotechnologyBiologyEmbryonic stem cellSurgeryBiochemistryGeneRegulatory affairsGeneticsPluripotent Stem Cells Research3D Printing in Biomedical ResearchNeuroscience and Neural Engineering
Robotic cell processing facility for clinical research of retinal cell therapy | Litcius