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Journal article
Benchtop Proton NMR Spectroscopy for High-Throughput Lipoprotein Quantification in Human Serum and Plasma
Analytical chemistry (Washington), Vol.97(12), pp.6399-6409
2025
PMID: 40095953
Abstract
We report the successful development and translation of high-field nuclear magnetic resonance (NMR) based comprehensive lipoprotein analysis to routine benchtop systems. This demonstrates the potential to reimagine population level cardiovascular disease risk analysis and individual level screening based on blood sampling. Using a quantitative calibration approach, we obtained stable and reproducible results from multiple sites, despite reduced spectral dispersion and sensitivity at lower field strengths. Our study shows that 25 out of 28 major lipoprotein parameters, including key cardiometabolic risk markers, were faithfully measured using benchtop NMR systems within 15 min. This development has significant implications for making a powerful diagnostic tool widely available, enhancing the potential for longitudinal personalized medicine through molecular phenotyping in the clinic.
Details
- Title
- Benchtop Proton NMR Spectroscopy for High-Throughput Lipoprotein Quantification in Human Serum and Plasma
- Authors/Creators
- Julien Wist - Murdoch University, Centre for Computational and Systems MedicinePhilipp Nitschke - Murdoch UniversityRicardo Conde - CIC bioGUNEAngela de Diego - CIC bioGUNEMaider Bizkarguenaga - CIC bioGUNESamantha Lodge - Murdoch University, Centre for Computational and Systems MedicineDrew Hall - Murdoch UniversityZhonglin Chai - Monash UniversityWenjun Wang - Australian Regenerative Medicine InstituteSudhir Kowlessur - Ministry of Health and Quality of LifeMarcio-Fernando Cobo - Bruker Biospin GmbH & Co. KG, Rudolf-Plank Straße 23, Ettlingen 76275, GermanyNiels Pompe - BrukerBirk Schütz - BrukerHartmut Schäfer - BrukerManfred Spraul - BrukerClaire Cannet - BrukerTammo Diercks - CIC bioGUNENieves Embade - Euskadiko Parke TeknologikoaElaine Holmes - Murdoch University, Centre for Computational and Systems MedicineJeremy K Nicholson - Murdoch University, Health Futures InstituteOscar Millet - Euskadiko Parke Teknologikoa
- Publication Details
- Analytical chemistry (Washington), Vol.97(12), pp.6399-6409
- Publisher
- ACS Publications
- Number of pages
- 11
- Grant note
- McCusker Charitable FoundationSpinnaker Health Research FoundationMcCusker Charitable Foundation, WA, The Western Australian Department of Health, National Health and Medical Research Council: EPCD000037, MRF2014349 Medical Research Future FundDepartment of Jobs, Tourism, Science and Innovation, Government of Western Australian Premier's FellowshipAustralian Research Council for Laureate Fellowship: KK-2023/00009, PID2021-124171OB-I00 Department of Industry of the Basque Country
We thank The Spinnaker Health Research Foundation, WA, The McCusker Charitable Foundation, WA, The Western Australian Department of Health, National Health and Medical Research Council and the Medical Research Future Fund (EPCD000037 and MRF2014349) for financial support. We thank the Department of Jobs, Tourism, Science and Innovation, Government of Western Australian Premier's Fellowship for funding E.H. We thank the Australian Research Council for Laureate Fellowship funding for E.H. We thank the Department of Industry of the Basque Country and the Agencia Estatal de Investigacion (Spain) for grants Elkartek: KK-2023/00009 and PID2021-124171OB-I00. The authors from Bruker thank Prof. Dr. med. Matthias Nauck, University Medicine Greifswald, Germany, and PD Dr. Manfred Baumstark, Department of Medicine, Albert Ludwigs-University, Freiburg, Germany, for model samples, ultracentrifugation and related metadata and information used by Bruker in the later development process of the B.I.LISA method released in 2016. The authors are grateful to Prof. Paul Zimmet to facilitate this new collaboration and for insightful discussions and recommendations.
- Identifiers
- 991005753932007891
- Copyright
- © 2025 The Authors.
- Murdoch Affiliation
- Australian National Phenome Centre; Centre for Computational and Systems Medicine; Health Futures Institute
- Language
- English
- Resource Type
- Journal article
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- 2 Chemistry
- 2.211 Mass Spectrometry
- 2.211.990 Metabolomics
- Web Of Science research areas
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