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Miniaturised broth microdilution for simplified antibiotic susceptibility testing of Gram negative clinical isolates using microcapillary devices

Miniaturised broth microdilution for simplified antibiotic susceptibility testing of Gram negative clinical isolates using microcapillary devices
Miniaturised broth microdilution for simplified antibiotic susceptibility testing of Gram negative clinical isolates using microcapillary devices
Antibiotic resistance is a major global challenge. Although microfluidic antibiotic susceptibility tests (AST) offer great potential for rapid and portable testing to inform correct antibiotic selection, the impact of miniaturisation on broth microdilution (BMD) is not fully understood. We developed a 10-plex microcapillary based broth microdilution using resazurin as a colorimetric indicator for bacterial growth. Each capillary had a 1 microlitre capillary volume, 100 times smaller than microplate broth microdilution. The microcapillary BMD was compared to an in-house standard microplate AST and commercial Vitek 2 system. When tested with 25 uropathogenic isolates (20 Escherichia coli and 5 Klebsiella pneumoniae) and 2 reference E. coli, these devices gave 96.1% (441/459 isolate/antibiotic combinations) categorical agreement, across 17 therapeutically beneficial antibiotics, compared to in-house microplate BMD with resazurin. A further 99 (50 E. coli and 49 K. pneumoniae) clinical isolates were tested against 10 antibiotics and showed 92.3% categorical agreement (914/990 isolate/antibiotic combinations) compared to the Vitek 2 measurements. These microcapillary tests showed excellent analytical agreement with existing AST methods. Furthermore, the small size and simple colour change can be recorded using a smartphone camera or it is feasible to follow growth kinetics using very simple, low-cost readers. The test strips used here are produced in large batches, allowing hundreds of multiplex tests to be made and tested rapidly. Demonstrating performance of miniaturised broth microdilution with clinical isolates paves the way for wider use of microfluidic AST.
0003-2654
3558-3569
Needs, Sarah H.
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Saiprom, Natnaree
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Rafaque, Zara
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Imtiaz, Wajiha
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Chantratita, Narisara
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Runcharoen, Chakkaphan
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Thammachote, Jeeranan
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Anun, Suthatip
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Peacock, Sharon J.
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Ray, Partha
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Andrews, Simon
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Edwards, Alexander D.
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Needs, Sarah H.
24425556-99e3-4c46-995b-2381776a0a38
Saiprom, Natnaree
72e7bae4-e88e-46b5-ae58-dbda090dc9a4
Rafaque, Zara
2e74e96c-ad69-4ad3-bb74-6cd81e15bc9e
Imtiaz, Wajiha
be7a2240-bf7e-4716-8277-1104269509b1
Chantratita, Narisara
f6147e81-8c8a-4fe3-96b5-91a66431774c
Runcharoen, Chakkaphan
27ca01bf-8fff-4f4c-ac7a-95ef2f6ca64d
Thammachote, Jeeranan
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Anun, Suthatip
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Peacock, Sharon J.
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Ray, Partha
a3b9e246-9e4e-4f84-80fc-6afea11048f7
Andrews, Simon
a8b3eb70-0094-4319-b1ec-dc34e2b40383
Edwards, Alexander D.
bc3d9b93-a533-4144-937b-c673d0a28879

Needs, Sarah H., Saiprom, Natnaree, Rafaque, Zara, Imtiaz, Wajiha, Chantratita, Narisara, Runcharoen, Chakkaphan, Thammachote, Jeeranan, Anun, Suthatip, Peacock, Sharon J., Ray, Partha, Andrews, Simon and Edwards, Alexander D. (2022) Miniaturised broth microdilution for simplified antibiotic susceptibility testing of Gram negative clinical isolates using microcapillary devices. Analyst, 147, 3558-3569. (doi:10.1039/D2AN00305H).

Record type: Article

Abstract

Antibiotic resistance is a major global challenge. Although microfluidic antibiotic susceptibility tests (AST) offer great potential for rapid and portable testing to inform correct antibiotic selection, the impact of miniaturisation on broth microdilution (BMD) is not fully understood. We developed a 10-plex microcapillary based broth microdilution using resazurin as a colorimetric indicator for bacterial growth. Each capillary had a 1 microlitre capillary volume, 100 times smaller than microplate broth microdilution. The microcapillary BMD was compared to an in-house standard microplate AST and commercial Vitek 2 system. When tested with 25 uropathogenic isolates (20 Escherichia coli and 5 Klebsiella pneumoniae) and 2 reference E. coli, these devices gave 96.1% (441/459 isolate/antibiotic combinations) categorical agreement, across 17 therapeutically beneficial antibiotics, compared to in-house microplate BMD with resazurin. A further 99 (50 E. coli and 49 K. pneumoniae) clinical isolates were tested against 10 antibiotics and showed 92.3% categorical agreement (914/990 isolate/antibiotic combinations) compared to the Vitek 2 measurements. These microcapillary tests showed excellent analytical agreement with existing AST methods. Furthermore, the small size and simple colour change can be recorded using a smartphone camera or it is feasible to follow growth kinetics using very simple, low-cost readers. The test strips used here are produced in large batches, allowing hundreds of multiplex tests to be made and tested rapidly. Demonstrating performance of miniaturised broth microdilution with clinical isolates paves the way for wider use of microfluidic AST.

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Accepted/In Press date: 31 May 2022
Published date: 8 July 2022

Identifiers

Local EPrints ID: 500110
URI: http://eprints.soton.ac.uk/id/eprint/500110
DOI: doi:10.1039/D2AN00305H
ISSN: 0003-2654
PURE UUID: 826f3530-1989-43e7-9c53-242e0f6485f2
ORCID for Alexander D. Edwards: ORCID iD orcid.org/0000-0003-2369-989X

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Date deposited: 15 Apr 2025 17:01
Last modified: 16 Apr 2025 02:14

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Contributors

Author: Sarah H. Needs
Author: Natnaree Saiprom
Author: Zara Rafaque
Author: Wajiha Imtiaz
Author: Narisara Chantratita
Author: Chakkaphan Runcharoen
Author: Jeeranan Thammachote
Author: Suthatip Anun
Author: Sharon J. Peacock
Author: Partha Ray
Author: Simon Andrews
Author: Alexander D. Edwards ORCID iD

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