3D printed microfluidic devices for cell culture

Authors

  • Marta Canta Department of Applied Science and Technology, Polytechnic University of Turin, Turin; PolitoBIOMed Lab, Polytechnic University of Turin, Turin
  • Désirée Baruffaldi Department of Applied Science and Technology, Polytechnic University of Turin, Turin; PolitoBIOMed Lab, Polytechnic University of Turin, Turin
  • Ignazio Roppolo Department of Applied Science and Technology, Polytechnic University of Turin, Turin; PolitoBIOMed Lab, Polytechnic University of Turin, Turin
  • Annalisa Chiappone Department of Applied Science and Technology, Polytechnic University of Turin, Turin; PolitoBIOMed Lab, Polytechnic University of Turin, Turin
  • Candido F. Pirri 1epartment of Applied Science and Technology, Polytechnic University of Turin, Turin; PolitoBIOMed Lab, Polytechnic University of Turin, Turin; Center Advanced Materials for Sustainable Future Technologies, Italian Institute of Technology, Turin
  • Francesca Frascella Department of Applied Science and Technology, Polytechnic University of Turin, Turin; PolitoBIOMed Lab, Polytechnic University of Turin, Turin

DOI:

https://doi.org/10.4081/bse.161

Keywords:

3D printing, microfluidics, biomaterials, cytotoxicity, cell culture

Abstract

A successful application of the 3D printed materials in the biomedical field requires extensive studies to ensure their biocompatibility at every step of the process. Here, different components suitable for cell applications, including a microfluidic device, were 3D printed using common resins and a deep analysis of their biocompatibility and post printed protocols was conducted.

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References

Zhang J, Hu Q, Wang S, et al. Digital light processing based three-dimensional printing for medical applications. Int J Bioprint 2019;6:242.

Gonzàlez G, Baruffaldi D, Martinengo C, et al. Materials Testing for the Development of Biocompatible Devices through Vat-Polymerization 3D Printing. Nanomaterials 2020;10:1788.

Lee PJ, Ghorashian N, Gaige TA, Hung PJ. Microfluidic System for Automated Cell-based Assays. JALA Charlottesv Va 2007;12:363-7.

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Published

29-09-2021

Issue

Vol. 2 No. 1 (2021)

Section

Communications

License

Copyright (c) 2021 The Authors

Creative Commons License

This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.

PAGEPress has chosen to apply the Creative Commons Attribution NonCommercial 4.0 International License (CC BY-NC 4.0) to all manuscripts to be published.

How to Cite

3D printed microfluidic devices for cell culture . (2021). Biomedical Science and Engineering, 2(1). https://doi.org/10.4081/bse.161