The Lipid and Glyceride Profiles of Infant Formula Differ by Manufacturer, Region and Date Sold

Furse, Samuel; Koulman, Albert

doi:10.3390/nu11051122

Cited by 28 publications

(52 citation statements)

References 47 publications

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“…A combination of Direct Infusion Mass Spectrometry (DI-MS [27][28][29] ) and phosphorus nuclear magnetic resonance ( 31 P NMR 30,31 ), known as dual spectroscopy 29 , was used to identify and verify the abundance of lipid classes between the two ionisation modes respectively ( Fig. S1, NMR data for each compartment shown in Supplementary Information).…”

Section: Resultsmentioning

confidence: 99%

“…Samples with a high concentration of triglycerides (TGs; e.g. adipose tissue) were also treated to concentrate the phospholipid fraction so it too could be profiled 28,29,44 . A second portion of the organic phase from the extraction (100 µL) of was transferred to a shallow plate (96 well, glass-coated) before being dried (N2 (g)), washed (hexane, 3 × 100 µL/well) and re-dissolved (DMT, 30 µL).…”

Section: Methodsmentioning

confidence: 99%

“…It was found that a small change in the abundance of lyso-PC was just measurable in this time, suggesting that sample preparation and running (<72h) was sound. One large scale petrol-wash 28 was done on an adipose sample (F1A, LP-HC). One large scale petrol-wash 28 was done on an adipose sample (F1A, LP-HC).…”

Section: Di-ms Data Processingmentioning

confidence: 99%

“…One large scale petrol-wash 28 was done on an adipose sample (F1A, LP-HC). One large scale petrol-wash 28 was done on an adipose sample (F1A, LP-HC). These spectra were used to check for sample degradation in handling (e.g.…”

Section: Di-ms Data Processingmentioning

confidence: 99%

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Revealing grand-paternal programming of lipid metabolism using a novel computational tool

Furse

Watkins

Chiarugi

et al. 2020

Preprint

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Furse et al. Unravelling grand-paternal programming of lipid metabolism using novel lipid computational tool, 2020. P a g e | 1Abstract While the consequences of poor maternal diet on the offspring's cardio-metabolic health have been studied in detail, the role of the father's diet on the health of his offspring is poorly understood. We used a known mouse model to establish the impact of an isocaloric paternal low-protein high-carbohydrate diet on the offspring's lipid metabolism. Detailed lipid profiles were acquired from F1 neonate (3 weeks), F1 adult (16 weeks) and F2 neonate male and female offspring, in serum, liver, brain, heart and abdominal adipose tissues by Mass Spectrometry and Nuclear Magnetic Resonance. Using a purpose-built computational tool for analysing lipid metabolism as a network, we characterised the number, type and abundance of lipid variables in and between tissues (Lipid Traffic Analysis), finding a variety of alterations associated with paternal diet. These elucidate a mechanism for the defective physiological behaviour of systems at risk of cardio-metabolic disease.

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Section: Resultsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

Section: Di-ms Data Processingmentioning

confidence: 99%

Section: Di-ms Data Processingmentioning

confidence: 99%

See 2 more Smart Citations

Revealing grand-paternal programming of lipid metabolism using a novel computational tool

Furse

Watkins

Chiarugi

et al. 2020

Preprint

Self Cite

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show abstract

“…Early work on DMSs has also been reported 19 . These studies have been made possible by considerable progress in laboratory infrastructure and methods for the high throughput lipidomics, including Direct Infusion Mass Spectrometry (DI-MS) 16,20,21 . The increasing demand for this sample type in high throughput studies, and the desire for high quality data, led us to answer unresolved questions about the analytical issues associated with using either DBSs or DMSs.…”

Section: Introductionmentioning

confidence: 99%

Lipid extraction from dried blood spots and dried milk spots for high throughput lipidomics

Furse

Koulman

2020

Preprint

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Highlights• The efficiency of lipid extractions on dried milk and dried blood spots was tested • The number of lipid variables and the total signal strength were used as objective measures • Decoagulation of dried blood spots improved extraction efficiency • A mixture of xylene, methanol and isopropanol isolates the lipid fraction best from DMSs • An aqueous extraction using dichloromethane was the most efficient method for isolating lipids from DBSs AbstractDried blood spots (DBS) and dried milk spots (DMS) represent convenient matrices for collecting and storing human samples. However, the use of these sample types for researching lipid metabolism remains relatively poorly explored, and especially the efficiency of lipid extraction is unclear. A visual inspection of punched DBSs after standard extraction suggests that the samples remain largely intact. DMSs comprise a dense aggregate of milk fat globules on one side of the card, suggesting that the lipid fraction may be physically inaccessible. This led us to the hypotheses that decoagulating may facilitate lipid extraction from both DBSs and DMSs. We tested decoagulation using a mixture of strong chaeotropes (guanidine and thiourea) in both DBS and DMS in the context of high throughput lipidomics (96/384w plate). Extraction of lipids from DMSs was tested with established extractions and one novel solvent mixture in a high throughput format. We found that exposure of DBSs to chaeotropes facilitated collection of the lipid fraction but was ineffective for DMSs. The lipid fraction of DMSs was best isolated without water, using a mixture of xylene/methanol/isopropanol (1:2:4). We conclude that decoagulation is essential for efficient extraction of lipids from DBSs and that a non-aqueous procedure using a spectrum of solvents is the best procedure for extracting lipids from DMSs. These methods represent convenient steps that are compatible with the sample structure and type, and with high throughput lipidomics.

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A high-throughput platform for detailed lipidomic analysis of a range of mouse and human tissues

et al. 2020

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Lipidomics is of increasing interest in studies of biological systems. However, high-throughput data collection and processing remains non-trivial, making assessment of phenotypes difficult. We describe a platform for surveying the lipid fraction for a range of tissues. These techniques are demonstrated on a set of seven different tissues (serum, brain, heart, kidney, adipose, liver, and vastus lateralis muscle) from post-weaning mouse dams that were either obese (> 12 g fat mass) or lean (<5 g fat mass). This showed that the lipid metabolism in some tissues is affected more by obesity than others. Analysis of human serum (healthy nonpregnant women and pregnant women at 28 weeks' gestation) showed that the abundance of several phospholipids differed between groups. Human placenta from mothers with high and low BMI showed that lean placentae contain less polyunsaturated lipid. This platform offers a way to map lipid metabolism with immediate application in metabolic research and elsewhere.

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The Lipid and Glyceride Profiles of Infant Formula Differ by Manufacturer, Region and Date Sold

Cited by 28 publications

References 47 publications

Revealing grand-paternal programming of lipid metabolism using a novel computational tool

Revealing grand-paternal programming of lipid metabolism using a novel computational tool

Lipid extraction from dried blood spots and dried milk spots for high throughput lipidomics

A high-throughput platform for detailed lipidomic analysis of a range of mouse and human tissues

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