Tissue Engineering: Reconfigurable Microphysiological Systems for Modeling Innervation and Multitissue Interactions (Adv. Biosys. 9/2020)

Jonathan R. Soucy; Adam J. Bindas; Ryan Brady; Tess Torregrosa; Cailey M. Denoncourt; Sanjin Hosic; Guohao Dai; Abigail N. Koppes; Ryan A. Koppes

doi:https://doi.org/10.1002/adbi.202070091

doi.org/10.1002/adbi.202070091

Tissue Engineering: Reconfigurable Microphysiological Systems for Modeling Innervation and Multitissue Interactions (Adv. Biosys. 9/2020)

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..., Ryan A. Koppes

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Advanced biosystems

Volume: 4, Issue: 9

Published: Sep 1, 2020

Abstract

To overcome the limitations of traditional organ chips, in article number 2000133, Ryan A. Koppes and co-workers have implemented a “cut and assemble” manufacturing technique to exploit the meniscus pinning effect, via GelPins, to constrain 3D biomaterials. These GelPins enable the formation of discrete, yet contiguous hydrogel structures in both x-y and z planes within custom microfluidic devices, facilitating future investigation of...

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Paper Details

Title

Tissue Engineering: Reconfigurable Microphysiological Systems for Modeling Innervation and Multitissue Interactions (Adv. Biosys. 9/2020)

DOI

doi.org/10.1002/adbi.202070091

Published Date

Sep 1, 2020

Journal

Advanced biosystems

Volume

4

Issue

9

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