Surface Modifications of COP-Based Microfluidic Devices for Improved Immobilization of Hydrogel Proteins: Long Term 3D Culture with Contractile Cell Types and Ischemia Model.

Sandra González Lana; Teodora Randelovic; Jesús Ciriza; María López-Valdeolivas; Rosa Monge; Carlos Sánchez-Somolinos; Ignacio Ochoa

doi:10.26754/jjii3a.20227230

Surface Modifications of COP-Based Microfluidic Devices for Improved Immobilization of Hydrogel Proteins: Long Term 3D Culture with Contractile Cell Types and Ischemia Model.

Authors

Sandra González Lana TMElab, University of Zaragoza
Teodora Randelovic
Jesús Ciriza
María López-Valdeolivas
Rosa Monge
Carlos Sánchez-Somolinos
Ignacio Ochoa

DOI:

https://doi.org/10.26754/jjii3a.20227230

Abstract

Hydrogel confinement is critical in microfluidics to generate gradients, as cell remodelling process boundaries the development of biological models such as ischemia or fibrosis. Here, we test the immobilization efficiency of collagen hydrogels cells embedded to treated COP-based microfluidic devices to preserve 3D structure and avoid gel contraction.

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Published

2022-07-18

Issue

Vol. 10 (2022): Actas de la XI Jornada de Jóvenes Investigadores e Investigadoras del I3A - 16 de junio de 2022

Section

Artículos (Ingeniería Biomédica)

How to Cite

González Lana, S., Randelovic, T., Ciriza, J., López-Valdeolivas, M., Monge, R., Sánchez-Somolinos, C., & Ochoa, I. (2022). Surface Modifications of COP-Based Microfluidic Devices for Improved Immobilization of Hydrogel Proteins: Long Term 3D Culture with Contractile Cell Types and Ischemia Model. Jornada De Jóvenes Investigadores Del I3A, 10. https://doi.org/10.26754/jjii3a.20227230

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Surface Modifications of COP-Based Microfluidic Devices for Improved Immobilization of Hydrogel Proteins: Long Term 3D Culture with Contractile Cell Types and Ischemia Model.

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