Organ-on-a-Chip: A Preclinical Microfluidic Platform for the Progress of Nanomedicine

Raquel O Rodrigues^{1

2}, Patrícia C Sousa², João Gaspar², Manuel Bañobre-López³, Rui Lima^{4

5}, Graça Minas¹

Affiliations

¹ Center for MicroElectromechanical Systems (CMEMS-UMinho), University of Minho, Campus de Azurém, Guimarães, 4800-058, Portugal.
² Microfabrication and Exploratory Nanotechnology, INL-International Iberian Nanotechnology Laboratory, Av. Mestre José Veiga, Braga, 4715-330, Portugal.
³ Advanced (magnetic) Theranostic Nanostructures Lab, Nanomedicine Unit, INL-International Iberian Nanotechnology Laboratory, Av. Mestre José Veiga, Braga, 4715-330, Portugal.
⁴ Transport Phenomena Research Center (CEFT), Faculdade de Engenharia da Universidade do Porto (FEUP), R. Dr. Roberto Frias, Porto, 4200-465, Portugal.
⁵ Mechanical Engineering and Resource Sustainability Center (MEtRICs), Mechanical Engineering Department, University of Minho, Campus de Azurém, Guimarães, 4800-058, Portugal.

PMID: 33236819
DOI: 10.1002/smll.202003517

Review

Organ-on-a-Chip: A Preclinical Microfluidic Platform for the Progress of Nanomedicine

Raquel O Rodrigues et al. Small. 2020 Dec.

. 2020 Dec;16(51):e2003517.

doi: 10.1002/smll.202003517. Epub 2020 Nov 25.

Authors

Raquel O Rodrigues^{1

2}, Patrícia C Sousa², João Gaspar², Manuel Bañobre-López³, Rui Lima^{4

5}, Graça Minas¹

Affiliations

¹ Center for MicroElectromechanical Systems (CMEMS-UMinho), University of Minho, Campus de Azurém, Guimarães, 4800-058, Portugal.
² Microfabrication and Exploratory Nanotechnology, INL-International Iberian Nanotechnology Laboratory, Av. Mestre José Veiga, Braga, 4715-330, Portugal.
³ Advanced (magnetic) Theranostic Nanostructures Lab, Nanomedicine Unit, INL-International Iberian Nanotechnology Laboratory, Av. Mestre José Veiga, Braga, 4715-330, Portugal.
⁴ Transport Phenomena Research Center (CEFT), Faculdade de Engenharia da Universidade do Porto (FEUP), R. Dr. Roberto Frias, Porto, 4200-465, Portugal.
⁵ Mechanical Engineering and Resource Sustainability Center (MEtRICs), Mechanical Engineering Department, University of Minho, Campus de Azurém, Guimarães, 4800-058, Portugal.

PMID: 33236819
DOI: 10.1002/smll.202003517

Abstract

Despite the progress achieved in nanomedicine during the last decade, the translation of new nanotechnology-based therapeutic systems into clinical applications has been slow, especially due to the lack of robust preclinical tissue culture platforms able to mimic the in vivo conditions found in the human body and to predict the performance and biotoxicity of the developed nanomaterials. Organ-on-a-chip (OoC) platforms are novel microfluidic tools that mimic complex human organ functions at the microscale level. These integrated microfluidic networks, with 3D tissue engineered models, have been shown high potential to reduce the discrepancies between the results derived from preclinical and clinical trials. However, there are many challenges that still need to be addressed, such as the integration of biosensor modules for long-time monitoring of different physicochemical and biochemical parameters. In this review, recent advances on OoC platforms, particularly on the preclinical validation of nanomaterials designed for cancer, as well as the current challenges and possible future directions for an end-use perspective are discussed.

Keywords: biosensors; nanoparticles; organ-on-a-chip; theranostics; tissue engineering.

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Organ-on-a-Chip: A Preclinical Microfluidic Platform for the Progress of Nanomedicine

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Organ-on-a-Chip: A Preclinical Microfluidic Platform for the Progress of Nanomedicine

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