Combining IR and Raman spectroscopies for enhanced accuracy and precision in the determination of lipid composition in liposomes
Combining IR and Raman spectroscopies for enhanced accuracy and precision in the determination of lipid composition in liposomes
Reducing measurement uncertainty is crucial to enable the adoption of rapid point-of-use techniques for clinical and industrial applications. Diagnosis of neonatal respiratory distress syndrome and liposome formulation quality control are two applications for which measuring the ratio of the lecithin to sphingomyelin composition of liposomes is important, for which no rapid measurement currently exists. Raman and infrared spectroscopies are two complementary approaches to examine characteristic molecular vibrations that can spectroscopically measure liposomes and, when combined with machine learning, predict their composition. We show that employing a data-fusion approach the uncertainty in the predicted compositions compared to the individual modalities (IR R2: 0.902 and Raman R2: 0.951) can be reduced to obtain more accurate and precise measurements (low-level fused model R2: 0.973, mean squared error: 0.024, prediction interval width: 0.303, high-level weighted fusion model R2: 0.970, mean squared error: 0.027, prediction interval width: 0.268).
Ahmed, Waseem
bd8069b9-786f-4dd1-b3f0-cf94d828a3b2
Vincent Veluthandath, Aneesh
6a183413-e10f-4374-bc64-a33bf7fd9cfa
Senthil Murugan, Ganapathy
a867686e-0535-46cc-ad85-c2342086b25b
25 March 2026
Ahmed, Waseem
bd8069b9-786f-4dd1-b3f0-cf94d828a3b2
Vincent Veluthandath, Aneesh
6a183413-e10f-4374-bc64-a33bf7fd9cfa
Senthil Murugan, Ganapathy
a867686e-0535-46cc-ad85-c2342086b25b
Ahmed, Waseem, Vincent Veluthandath, Aneesh and Senthil Murugan, Ganapathy
(2026)
Combining IR and Raman spectroscopies for enhanced accuracy and precision in the determination of lipid composition in liposomes.
Biomolecules, 16 (4), [489].
(doi:10.3390/biom16040489).
Abstract
Reducing measurement uncertainty is crucial to enable the adoption of rapid point-of-use techniques for clinical and industrial applications. Diagnosis of neonatal respiratory distress syndrome and liposome formulation quality control are two applications for which measuring the ratio of the lecithin to sphingomyelin composition of liposomes is important, for which no rapid measurement currently exists. Raman and infrared spectroscopies are two complementary approaches to examine characteristic molecular vibrations that can spectroscopically measure liposomes and, when combined with machine learning, predict their composition. We show that employing a data-fusion approach the uncertainty in the predicted compositions compared to the individual modalities (IR R2: 0.902 and Raman R2: 0.951) can be reduced to obtain more accurate and precise measurements (low-level fused model R2: 0.973, mean squared error: 0.024, prediction interval width: 0.303, high-level weighted fusion model R2: 0.970, mean squared error: 0.027, prediction interval width: 0.268).
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biomolecules-16-00489
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Accepted/In Press date: 17 March 2026
Published date: 25 March 2026
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Local EPrints ID: 510350
URI: http://eprints.soton.ac.uk/id/eprint/510350
PURE UUID: e27a1eb1-4a92-49c5-b0e1-e29cd5b61d67
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Date deposited: 27 Mar 2026 17:30
Last modified: 28 Mar 2026 03:13
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Author:
Waseem Ahmed
Author:
Aneesh Vincent Veluthandath
Author:
Ganapathy Senthil Murugan
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