A droplet microfluidic sensor for point-of-care measurement of plasma/serum total free thiol concentrations
A droplet microfluidic sensor for point-of-care measurement of plasma/serum total free thiol concentrations
Total free thiols are an important marker of the whole-body redox state, which has been shown to be associated with clinical outcome in health and disease. Recent investigations have suggested that increased insight may be gained by monitoring alterations of redox state in response to exercise and hypoxia and to monitor redox trajectories in disease settings. However, conducting such studies is challenging due to the requirement for repeated venous blood sampling and intensive lab work. Droplet microfluidic sensors offer an alternative platform for developing a point-of-care testing approach using small sample volumes and automated systems to complement or ultimately replace laboratory testing. Here we developed a small, portable droplet microfluidic sensor that can measure total free thiol concentrations in 20 μL human plasma (or serum) samples, providing a reading in less than 10 min. This system features a novel method to enhance the mixing of reagent and analyte in droplets containing viscous biological fluids. The results in a range of real-world human plasma samples showed equivalence with current standard laboratory assays while reducing sample volume requirements 9-fold and fully automating the process. Micro hematocrit capillaries allowed testing of capillary blood samples collected by fingerprick lancing. The system was used to monitor total free thiols using fingerprick samples in healthy volunteers and revealed significant changes in total free thiols in response to food intake and exercise. This device has the potential to improve our ability to conduct physiological studies of total free thiol level changes and improve our understanding of redox physiology, which may ultimately be applied in redox medicine to improve patient care.
2678-2688
Carter, Liam
73c4ceb3-a90e-4a2f-862d-a6ee5d6698e6
Nightingale, Adrian
4b51311d-c6c3-40d5-a13f-ab8917031ab3
Feelisch, Martin
8c1b9965-8614-4e85-b2c6-458a2e17eafd
Niu, Xize
f3d964fb-23b4-45db-92fe-02426e4e76fa
11 February 2025
Carter, Liam
73c4ceb3-a90e-4a2f-862d-a6ee5d6698e6
Nightingale, Adrian
4b51311d-c6c3-40d5-a13f-ab8917031ab3
Feelisch, Martin
8c1b9965-8614-4e85-b2c6-458a2e17eafd
Niu, Xize
f3d964fb-23b4-45db-92fe-02426e4e76fa
Carter, Liam, Nightingale, Adrian, Feelisch, Martin and Niu, Xize
(2025)
A droplet microfluidic sensor for point-of-care measurement of plasma/serum total free thiol concentrations.
Analytical Chemistry, 97 (5), .
(doi:10.1021/acs.analchem.4c04163).
Abstract
Total free thiols are an important marker of the whole-body redox state, which has been shown to be associated with clinical outcome in health and disease. Recent investigations have suggested that increased insight may be gained by monitoring alterations of redox state in response to exercise and hypoxia and to monitor redox trajectories in disease settings. However, conducting such studies is challenging due to the requirement for repeated venous blood sampling and intensive lab work. Droplet microfluidic sensors offer an alternative platform for developing a point-of-care testing approach using small sample volumes and automated systems to complement or ultimately replace laboratory testing. Here we developed a small, portable droplet microfluidic sensor that can measure total free thiol concentrations in 20 μL human plasma (or serum) samples, providing a reading in less than 10 min. This system features a novel method to enhance the mixing of reagent and analyte in droplets containing viscous biological fluids. The results in a range of real-world human plasma samples showed equivalence with current standard laboratory assays while reducing sample volume requirements 9-fold and fully automating the process. Micro hematocrit capillaries allowed testing of capillary blood samples collected by fingerprick lancing. The system was used to monitor total free thiols using fingerprick samples in healthy volunteers and revealed significant changes in total free thiols in response to food intake and exercise. This device has the potential to improve our ability to conduct physiological studies of total free thiol level changes and improve our understanding of redox physiology, which may ultimately be applied in redox medicine to improve patient care.
Text
carter-et-al-2025-a-droplet-microfluidic-sensor-for-point-of-care-measurement-of-plasma-serum-total-free-thiol
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More information
Accepted/In Press date: 7 January 2025
e-pub ahead of print date: 27 January 2025
Published date: 11 February 2025
Additional Information:
Publisher Copyright:
© 2025 The Authors. Published by American Chemical Society.
Identifiers
Local EPrints ID: 501661
URI: http://eprints.soton.ac.uk/id/eprint/501661
ISSN: 0003-2700
PURE UUID: 31de8ef2-ad30-4206-b36a-e32dd3c2ce3b
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Date deposited: 04 Jun 2025 17:18
Last modified: 22 Aug 2025 02:10
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Author:
Liam Carter
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