Challenges in microfluidic and point-of-care phenotypic antimicrobial resistance tests
Challenges in microfluidic and point-of-care phenotypic antimicrobial resistance tests
To combat the threat to public health of antimicrobial resistance, there is a need for faster, more portable diagnostic tools to aid in antibiotic selection. Current methods for determining antimicrobial resistance of pathogens in clinical samples take days to result and require high levels of user input. Microfluidics offers many potential benefits, reducing time to result, user input, and allowing point of care testing. This review focuses on the challenges of developing functional or phenotypic microfluidic antimicrobial susceptibility tests; such methods complement other vital tools such as nucleic acid detection. Some of the most important challenges identified here are not unique to microfluidics but apply to most antimicrobial susceptibility testing innovations and relate to the nature of the sample being tested. For many high priority samples, mixtures of bacteria, highly variable target cell density, and the sample matrix can all affect measurements, and miniaturization can create sensitivity problems if target bacteria are dilute. Recent advances including smartphone capability, new sensors, microscopy, and a resurgence in paper microfluidics offer important opportunities for microfluidic engineering to simplify functional and phenotypic antimicrobial susceptibility testing. But the complexity of most clinical samples remains one of the biggest barriers to rapid uptake of microfluidics for antimicrobial resistance testing.
Needs, Sarah H.
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Donmez, Sultan Itayda
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McQuaid, Conor
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Osborn, Helen M. I.
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Edwards, Alexander
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15 September 2020
Needs, Sarah H.
6dd8aa24-d1de-4429-9b0a-65e82204db58
Donmez, Sultan Itayda
d603a603-da60-4e73-b3ac-966f4684f4a0
McQuaid, Conor
40d03d64-36f2-409d-9d2a-56bc0cc2189d
Osborn, Helen M. I.
06b84ced-f441-44b3-a72d-ea0e01a43da6
Edwards, Alexander
bc3d9b93-a533-4144-937b-c673d0a28879
Needs, Sarah H., Donmez, Sultan Itayda, McQuaid, Conor, Osborn, Helen M. I. and Edwards, Alexander
(2020)
Challenges in microfluidic and point-of-care phenotypic antimicrobial resistance tests.
Frontiers in Mechancial Engineering, 6, [73].
(doi:10.3389/fmech.2020.00073).
Abstract
To combat the threat to public health of antimicrobial resistance, there is a need for faster, more portable diagnostic tools to aid in antibiotic selection. Current methods for determining antimicrobial resistance of pathogens in clinical samples take days to result and require high levels of user input. Microfluidics offers many potential benefits, reducing time to result, user input, and allowing point of care testing. This review focuses on the challenges of developing functional or phenotypic microfluidic antimicrobial susceptibility tests; such methods complement other vital tools such as nucleic acid detection. Some of the most important challenges identified here are not unique to microfluidics but apply to most antimicrobial susceptibility testing innovations and relate to the nature of the sample being tested. For many high priority samples, mixtures of bacteria, highly variable target cell density, and the sample matrix can all affect measurements, and miniaturization can create sensitivity problems if target bacteria are dilute. Recent advances including smartphone capability, new sensors, microscopy, and a resurgence in paper microfluidics offer important opportunities for microfluidic engineering to simplify functional and phenotypic antimicrobial susceptibility testing. But the complexity of most clinical samples remains one of the biggest barriers to rapid uptake of microfluidics for antimicrobial resistance testing.
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fmech.2020200073_VOR
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Accepted/In Press date: 29 July 2020
Published date: 15 September 2020
Identifiers
Local EPrints ID: 502218
URI: http://eprints.soton.ac.uk/id/eprint/502218
ISSN: 2297-3079
PURE UUID: 1e66f1fa-0971-4277-9e43-6072fa4400d1
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Date deposited: 18 Jun 2025 16:39
Last modified: 22 Aug 2025 02:39
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Contributors
Author:
Sarah H. Needs
Author:
Sultan Itayda Donmez
Author:
Conor McQuaid
Author:
Helen M. I. Osborn
Author:
Alexander Edwards
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