Rapid and directly interpretable antimicrobial susceptibility profiling by continuous microvolume-electroanalysis of ferricyanide-mediated bacterial respiration

Krittamate Buppasirakul; Wipa Suginta; Albert Schulte

doi:10.1039/d3cc04683d

journal article Jan 01, 2024

Rapid and directly interpretable antimicrobial susceptibility profiling by continuous microvolume-electroanalysis of ferricyanide-mediated bacterial respiration

Krittamate Buppasirakul

Wipa Suginta Albert Schulte

Chemical Communications Vol. 60 No. 3 pp. 308-311 · Royal Society of Chemistry (RSC)

View at Publisher Save 10.1039/d3cc04683d

Abstract

A continuous electroanalytical method for deriving a bacterium's antibiotic susceptibility profiles from ferricyanide-mediated viability assessment with extractable electrochemical minimum inhibitory concentrations (ecMICs).

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Details

Published: Jan 01, 2024
Vol/Issue: 60(3)
Pages: 308-311
License: View

Authors

K

Krittamate Buppasirakul

School of Biomolecular Science and Engineering, Vidyasirimedhi Institute of Science and Technology (VISTEC), Wang Chan Valley, Rayong 21210, Thailand

W

Wipa Suginta

School of Biomolecular Science and Engineering, Vidyasirimedhi Institute of Science and Technology (VISTEC), Wang Chan Valley, Rayong 21210, Thailand

A

Albert Schulte

School of Biomolecular Science and Engineering, Vidyasirimedhi Institute of Science and Technology (VISTEC), Wang Chan Valley, Rayong 21210, Thailand

Funding

Thailand Science Research and Innovation Award: Fundamental Funds 2023/2024

Vidyasirimedhi Institute of Science and Technology Award: PhD grant Krittamate Buppasirakul

Cite This Article

Krittamate Buppasirakul, Wipa Suginta, Albert Schulte (2024). Rapid and directly interpretable antimicrobial susceptibility profiling by continuous microvolume-electroanalysis of ferricyanide-mediated bacterial respiration. Chemical Communications, 60(3), 308-311. https://doi.org/10.1039/d3cc04683d

Rapid and directly interpretable antimicrobial susceptibility profiling by continuous microvolume-electroanalysis of ferricyanide-mediated bacterial respiration

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