Large-scale smart bioreactor with fully integrated wireless multivariate sensors and electronics for long-term in situ monitoring of stem cell culture

Jimin Lee, Hojoong Kim, Hyo Ryoung Lim, Yun Soung Kim, Thi Thai Thanh Hoang, Jeongmoon Choi, Gun Jae Jeong, Hodam Kim, Robert Herbert, Ira Soltis, Ka Ram Kim, Sung Hoon Lee, Youngjin Kwon, Yunki Lee, Young Charles Jang, Woon Hong Yeo

Research output: Contribution to journalArticlepeer-review

4 Scopus citations

Abstract

Achieving large-scale, cost-effective, and reproducible manufacturing of stem cells with the existing devices is challenging. Traditional single-use cell-bag bioreactors, limited by their rigid and single-point sensors, struggle with accuracy and scalability for high-quality cell manufacturing. Here, we introduce a smart bioreactor system that enables multi-spatial sensing for real-time, wireless culture monitoring. This scalable system includes a low-profile, label-free thin-film sensor array and electronics integrated with a flexible cell bag, allowing for simultaneous assessment of culture properties such as pH, dissolved oxygen, glucose, and temperature, to receive real-time feedback for up to 30 days. The experimental results show the accurate monitoring of time-dynamic and spatial variations of stem cells and myoblast cells with adjustable carriers from a plastic dish to a 2-liter cell bag. These advances open up the broad applicability of the smart sensing system for large-scale, lower-cost, reproducible, and high-quality engineered cell manufacturing for broad clinical use.

Original languageEnglish
Article numbereadk6714
JournalScience advances
Volume10
Issue number7
DOIs
StatePublished - 2024

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