High‐sensitivity liquid chromatography–combustion isotope ratio mass spectrometry of fat‐soluble vitamins

Caimi, Richard J.; Brenna, J. Thomas

doi:10.1002/jms.1190300311

Cited by 24 publications

(23 citation statements)

References 21 publications

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“…δ 13 C) around 0.5‰ by flow injection analysis mode (FIA, meaning injection without any LC column as dropwise or “discrete” analysis) and 1‰ by LC for amounts greater than 50 µg (Caimi & Brenna, 1993). In 1995, the sensitivity of the interface was improved by more than two orders of magnitude by changing the coating process as well as other parameters (Caimi & Brenna, 1995). A pneumatic aerosol spray was installed to atomize the liquid into an aerosol cone which was then coated onto the wire.…”

Section: Interfaces Used To Combine Lc With Irms and Molecular Ms Insmentioning

confidence: 99%

Liquid chromatography combined with mass spectrometry for ¹³C isotopic analysis in life science research

Godin

Fay

Hopfgartner

2007

Mass Spectrometry Reviews

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Among the different disciplines covered by mass spectrometry, measurement of 13 C/ 12 C isotopic ratio crosses a large section of disciplines from a tool revealing the origin of compounds to more recent approaches such as metabolomics and proteomics. Isotope ratio mass spectrometry (IRMS) and molecular mass spectrometry (MS) are the two most mature techniques for 13 C isotopic analysis of compounds, respectively, for high and lowisotopic precision. For the sample introduction, the coupling of gas chromatography (GC) to either IRMS or MS is state of the art technique for targeted isotopic analysis of volatile analytes. However, liquid chromatography (LC) also needs to be considered as a tool for the sample introduction into IRMS or MS for 13 C isotopic analyses of non-volatile analytes at natural abundance as well as for 13 C-labeled compounds. This review presents the past and the current processes used to perform 13 C isotopic analysis in combination with LC. It gives particular attention to the combination of LC with IRMS which started in the 1990's with the moving wire transport, then subsequently moved to the chemical reaction interface (CRI) and was made commercially available in 2004 with the wet chemical oxidation interface (LC-IRMS). The LC-IRMS method development is also discussed in this review, including the possible approaches for increasing selectivity and efficiency, for example, using a 100% aqueous mobile phase for the LC separation. In addition, applications for measuring 13 C isotopic enrichments using atmospheric pressure LC-MS instruments with a quadrupole, a time-of-flight, and an ion trap analyzer are also discussed as well as a LC-ICPMS using a prototype instrument with two quadrupoles. #

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Section: Interfaces Used To Combine Lc With Irms and Molecular Ms Insmentioning

confidence: 99%

Liquid chromatography combined with mass spectrometry for ¹³C isotopic analysis in life science research

Godin

Fay

Hopfgartner

2007

Mass Spectrometry Reviews

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“…This represents a 30x efficiency increase and 8x maximum wire loading compared to the spray transfer technique used in earlier moving wire interfaces. 6 …”

Section: Resultsmentioning

confidence: 99%

“…4,5 In 1995, Caimi and Brenna published the description of a “liquid chromatography/combustion isotope ratio mass spectrometry” (LC/C-IRMS) MWI 6 . This system allowed on-line measurement of the 13 C/ 12 C ratios in LC peaks with an isotopic precision of around 1‰ for samples greater than 1 μg.…”

Section: Introductionmentioning

confidence: 99%

Ultrahigh Efficiency Moving Wire Combustion Interface for Online Coupling of High-Performance Liquid Chromatography (HPLC)

et al. 2011

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We describe a 100% efficient moving-wire interface for on-line coupling of high performance liquid chromatography which transmits 100% of carbon in non-volatile analytes to a CO2 gas accepting ion source. This interface accepts a flow of analyte in solvent, evaporates the solvent, combusts the remaining analyte, and directs the combustion products to the instrument of choice. Effluent is transferred to a periodically indented wire by a coherent jet to increase efficiency and maintain peak resolution. The combustion oven is plumbed such that gaseous combustion products are completely directed to an exit capillary, avoiding the loss of combustion products to the atmosphere. This system achieves the near complete transfer of analyte at HPLC flow rates up to 125 μL/min at a wire speed of 6 cm/s. This represents a 30x efficiency increase and 8x maximum wire loading compared to the spray transfer technique used in earlier moving wire interfaces.

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“…The coupling of liquid chromatography with IRMS is an even newer development, which despite an early report of its utility [8] has not been applied to micronutrient work. However, the marriage of HPLC with molecular mass spectrometry has been more widely employed (Table 1).…”

Section: Instrumentationmentioning

confidence: 98%

Recent progress in stable isotope methods for assessing vitamin metabolism

Bluck

2009

Current Opinion in Clinical Nutrition &Amp; Metabolic Care

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High‐sensitivity liquid chromatography–combustion isotope ratio mass spectrometry of fat‐soluble vitamins

Cited by 24 publications

References 21 publications

Liquid chromatography combined with mass spectrometry for ¹³C isotopic analysis in life science research

Liquid chromatography combined with mass spectrometry for ¹³C isotopic analysis in life science research

Ultrahigh Efficiency Moving Wire Combustion Interface for Online Coupling of High-Performance Liquid Chromatography (HPLC)

Recent progress in stable isotope methods for assessing vitamin metabolism

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High‐sensitivity liquid chromatography–combustion isotope ratio mass spectrometry of fat‐soluble vitamins

Cited by 24 publications

References 21 publications

Liquid chromatography combined with mass spectrometry for 13C isotopic analysis in life science research

Liquid chromatography combined with mass spectrometry for 13C isotopic analysis in life science research

Ultrahigh Efficiency Moving Wire Combustion Interface for Online Coupling of High-Performance Liquid Chromatography (HPLC)

Recent progress in stable isotope methods for assessing vitamin metabolism

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Product

Resources

About

Liquid chromatography combined with mass spectrometry for ¹³C isotopic analysis in life science research

Liquid chromatography combined with mass spectrometry for ¹³C isotopic analysis in life science research