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Fibroblasts Accelerate Formation and Improve...
Journal article

Fibroblasts Accelerate Formation and Improve Reproducibility of 3D Cellular Structures Printed with Magnetic Assistance

Abstract

Fibroblasts (mouse, NIH/3T3) are combined with MDA-MB-231 cells to accelerate the formation and improve the reproducibility of 3D cellular structures printed with magnetic assistance. Fibroblasts and MDA-MB-231 cells are cocultured to produce 12.5 : 87.5, 25 : 75, and 50 : 50 total population mixtures. These mixtures are suspended in a cell medium containing a paramagnetic salt, Gd-DTPA, which increases the magnetic susceptibility of the medium …

Authors

Mishriki S; Aithal S; Gupta T; Sahu RP; Geng F; Puri IK

Journal

Research, Vol. 2020, , pp. 1–15

Publisher

American Association for the Advancement of Science (AAAS)

Publication Date

January 2020

DOI

10.34133/2020/3970530

ISSN

2518-9247

Associated Experts

Fei Geng

Associate Professor, Faculty of Engineering
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Ishwar Puri

Associate Member, Faculty of Engineering
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Rakesh Sahu

Adjunct Associate Professor, Faculty of Engineering
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Labels

Fields of Research (FoR)

3101 Biochemistry and Cell Biology40 Engineering31 Biological Sciences

McMaster Research Centers and Institutes (RCI)

biointerfaces
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