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Literature DB >> 21629950

Biocompatible multi-address 3D cell assembly in microfluidic devices using spatially programmable gel formation.

Yi Cheng¹, Xiaolong Luo, Chen-Yu Tsao, Hsuan-Chen Wu, Jordan Betz, Gregory F Payne, William E Bentley, Gary W Rubloff.

Abstract

Programmable 3D cell assembly under physiological pH conditions is achieved using electrodeposited stimuli-responsive alginate gels in a microfluidic device, with parallel sidewall electrodes enabling direct observation of the cell assembly. Electrically triggered assembly and subsequent viability of mammalian cells is demonstrated, along with spatially programmable, multi-address assembly of different strains of E. coli cells. Our approach enables in vitro study of dynamic cellular and inter-cellular processes, from cell growth and stimulus/response to inter-colony and inter-species signaling.

Entities: Chemical Species

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Year: 2011 PMID： 21629950 DOI： 10.1039/c1lc20306a

Source DB: PubMed Journal: Lab Chip ISSN： 1473-0189 Impact factor: 6.799

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Cited

4 in total

Biocompatible multi-address 3D cell assembly in microfluidic devices using spatially programmable gel formation.

Review 1. Electrobiofabrication: electrically based fabrication with biologically derived materials.

Review 2. Microfabricated electrochemical cell-based biosensors for analysis of living cells in vitro.

3. Electrochemical Hydrogel Lithography of Calcium-Alginate Hydrogels for Cell Culture.

4. A redox-based electrogenetic CRISPR system to connect with and control biological information networks.