Centrifugal Generation of Droplet-Based 3D Cell Cultures

Quickly and easily producing uniform populations of microsphere-based 3D cell cultures using droplet-based templating methods has the potential to enable widespread use of such platforms in drug discovery or cancer research. Here, we advance the design of centrifuge-based droplet generation devices,...

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Veröffentlicht in:	SLAS technology 2020-10, Vol.25 (5), p.436-445
Hauptverfasser:	De Lora, Jacqueline A., Velasquez, Jason L., Carroll, Nick J., Freyer, James P., Shreve, Andrew P.
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Sprache:	eng
Schlagworte:	Biochemistry & Molecular Biology Chemistry
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creator	De Lora, Jacqueline A. Velasquez, Jason L. Carroll, Nick J. Freyer, James P. Shreve, Andrew P.
description	Quickly and easily producing uniform populations of microsphere-based 3D cell cultures using droplet-based templating methods has the potential to enable widespread use of such platforms in drug discovery or cancer research. Here, we advance the design of centrifuge-based droplet generation devices, describe the use of this platform for droplet generation with controlled cell occupancy, and demonstrate weeklong culture duration. Using simple-to-construct devices and easily implemented protocols, the initial concentration of encapsulated cells is adjustable up to hundreds of cells per microsphere. This work demonstrates the first instance of using centrifugal droplet-generating devices to produce large numbers of cell-encapsulating microspheres. Applications of this versatile methodology include the rapid formation of templated 3D cell culture populations suitable for suspension culture or large batch bioreactor studies that require uniform populations.
doi_str_mv	10.1177/2472630320915837
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title	Centrifugal Generation of Droplet-Based 3D Cell Cultures
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