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2022
Journal Article
Title
Needle to needle robotāassisted manufacture of cell therapy products
Abstract
Advanced therapeutic medicinal products (ATMPs) have emerged as novel therapiesfor untreatable diseases, generating the need for large volumes of high-quality,clinically-compliant GMP cells to replace costly, high-risk and limited scale manualexpansion processes. We present the design of a fully automated, robot-assistedplatform incorporating the use of multiliter stirred tank bioreactors for scalable pro-duction of adherent human stem cells. The design addresses a needle-to-needleclosed process incorporating automated bone marrow collection, cell isolation,expansion, and collection into cryovials for patient delivery. AUTOSTEM, a modular,adaptable, fully closed system ensures no direct operator interaction with biologicalmaterial; all commands are performed through a graphic interface. Seeding of sourcematerial, process monitoring, feeding, sampling, harvesting and cryopreservation areautomated within the closed platform, comprising two clean room levels enablingboth open and closed processes. A bioprocess based on human MSCs expanded onmicrocarriers was used for proof of concept. Utilizing equivalent culture parameters,the AUTOSTEM robot-assisted platform successfully performed cell expansion at theliter scale, generating results comparable to manual production, while maintaining cellquality postprocessing.
Author(s)
Open Access
Rights
CC BY 4.0: Creative Commons Attribution
Language
English