Issue 23, 2017

The power of solid supports in multiphase and droplet-based microfluidics: towards clinical applications

Abstract

Multiphase and droplet microfluidic systems are growing in relevance in bioanalytical-related fields, especially due to the increased sensitivity, faster reaction times and lower sample/reagent consumption of many of its derived bioassays. Often applied to homogeneous (liquid/liquid) reactions, innovative strategies for the implementation of heterogeneous (typically solid/liquid) processes have recently been proposed. These involve, for example, the extraction and purification of target analytes from complex matrices or the implementation of multi-step protocols requiring efficient washing steps. To achieve this, solid supports such as functionalized particles (micro or nanometric) presenting different physical properties (e.g. magnetic, optical or others) are used for the binding of specific entities. The manipulation of such supports with different microfluidic principles has both led to the miniaturization of existing biomedical protocols and the development of completely new strategies for diagnostics and research. In this review, multiphase and droplet-based microfluidic systems using solid suspensions are presented and discussed with a particular focus on: i) working principles and technological developments of the manipulation strategies and ii) applications, critically discussing the level of maturity of these systems, which can range from initial proofs of concept to real clinical validations.

Graphical abstract: The power of solid supports in multiphase and droplet-based microfluidics: towards clinical applications

Article information

Article type
Critical Review
Submitted
31 mai 2017
Accepted
12 sept. 2017
First published
13 sept. 2017

Lab Chip, 2017,17, 3979-3999

The power of solid supports in multiphase and droplet-based microfluidics: towards clinical applications

M. Serra, D. Ferraro, I. Pereiro, J.-L. Viovy and S. Descroix, Lab Chip, 2017, 17, 3979 DOI: 10.1039/C7LC00582B

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