Journal
JALA
Volume 20, Issue 3, Pages 283-295Publisher
SAGE PUBLICATIONS INC
DOI: 10.1177/2211068214562002
Keywords
digital microfluidics; spheroids; electrowetting; 3D cell culture; cell-based assays
Funding
- NIH-NCRR [CJX1-443835-WS-29646]
- NSF [CHE-0722519]
- NSF-DGE UCLA IGERT Materials Creation Training Program (MCTP) [0654431]
- Direct For Education and Human Resources [0654431] Funding Source: National Science Foundation
- Division Of Graduate Education [0654431] Funding Source: National Science Foundation
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Cell spheroids are multicellular aggregates, grown in vitro, that mimic the three-dimensional morphology of physiological tissues. Although there are numerous benefits to using spheroids in cell-based assays, the adoption of spheroids in routine biomedical research has been limited, in part, by the tedious workflow associated with spheroid formation and analysis. Here we describe a digital microfluidic platform that has been developed to automate liquid-handling protocols for the formation, maintenance, and analysis of multicellular spheroids in hanging drop culture. We show that droplets of liquid can be added to and extracted from through-holes, or wells, and fabricated in the bottom plate of a digital microfluidic device, enabling the formation and assaying of hanging drops. Using this digital microfluidic platform, spheroids of mouse mesenchymal stem cells were formed and maintained in situ for 72 h, exhibiting good viability (>90%) and size uniformity (% coefficient of variation <10% intraexperiment, <20% interexperiment). A proof-of-principle drug screen was performed on human colorectal adenocarcinoma spheroids to demonstrate the ability to recapitulate physiologically relevant phenomena such as insulin-induced drug resistance. With automatable and flexible liquid handling, and a wide range of in situ sample preparation and analysis capabilities, the digital microfluidic platform provides a viable tool for automating cell spheroid culture and analysis.
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