WCPS: Application of Compound Independent Calibration (CIC) Software for the Quantitation of As-species in Undiluted Urine by LC-ICP-MS
Postery | 2011 | Agilent TechnologiesInstrumentace
This study addresses the reliable quantitation of arsenic species in undiluted human urine, a critical requirement for toxicological monitoring, occupational exposure assessment and epidemiological research. Liquid chromatography coupled to inductively coupled plasma–mass spectrometry (LC-ICP-MS) offers high sensitivity and selectivity for element-specific detection, but routine use is hampered by limited availability or high cost of pure species standards. The compound independent calibration (CIC) approach leverages the element response itself to overcome these obstacles, simplifying calibration and extending applicability to unknown or unexpected arsenic species.
This work aimed to compare traditional compound-specific calibration (CSC) with CIC based on an inorganic arsenic standard (As(V)), evaluating accuracy, robustness and practical feasibility for extended analytical runs. Undiluted urine samples from patients were analyzed alongside calibration standards over a continuous 13-hour sequence to assess drift, retention time stability and agreement between the two calibration strategies.
The separation system consisted of an Agilent 1260 HPLC equipped with an arsenic speciation column and guard column. Mobile phase comprised phosphate buffer with EDTA, acetate, nitrate and ethanol at pH 11.0, purged with argon, flowing at 1.0 mL/min. A 5 µL injection volume was used for both standards and urine samples. The LC was directly coupled to an Agilent 7700x ICP-MS operated at 1550 W RF power, with optimized gas flows and a cooled spray chamber. Full control and data acquisition were performed via MassHunter Workstation software.
The overlaid chromatograms of a 50 µg/L arsenic standard injected 48 times over 13 hours showed minimal retention time shift and no significant signal drift, demonstrating excellent system stability. Comparison of CIC versus CSC quantitation across five arsenic species (arsenobetaine, MMA, As(III), DMA, As(V)) in multiple patient samples revealed average CIC/CSC ratios ranging from 0.89 to 1.16, indicating close agreement. The largest deviation occurred for dimethylarsinic acid (DMA), suggesting slight species-dependent sensitivity differences, but overall performance confirmed CIC as a viable alternative.
Further developments may include automated software routines for real-time CIC implementation across multi-element speciation workflows. Expanding CIC to other heteroatom elements (Se, Sn, Hg) and complex matrices could broaden its impact. Integration with high-resolution chromatography or tandem mass spectrometry may enhance selectivity and allow identification of novel metabolites or emerging contaminants.
The compound independent calibration approach using As(V) delivers robust, accurate quantitation of arsenic species in undiluted urine, offering significant cost and logistical advantages over compound-specific calibration. Its demonstrated stability and agreement make CIC a powerful tool for high-throughput speciation methods, addressing key challenges in routine analytical chemistry practice.
HPLC, ICP/MS, Speciační analýza
ZaměřeníKlinická analýza
VýrobceAgilent Technologies
Souhrn
Significance of the Topic
This study addresses the reliable quantitation of arsenic species in undiluted human urine, a critical requirement for toxicological monitoring, occupational exposure assessment and epidemiological research. Liquid chromatography coupled to inductively coupled plasma–mass spectrometry (LC-ICP-MS) offers high sensitivity and selectivity for element-specific detection, but routine use is hampered by limited availability or high cost of pure species standards. The compound independent calibration (CIC) approach leverages the element response itself to overcome these obstacles, simplifying calibration and extending applicability to unknown or unexpected arsenic species.
Objectives and Study Overview
This work aimed to compare traditional compound-specific calibration (CSC) with CIC based on an inorganic arsenic standard (As(V)), evaluating accuracy, robustness and practical feasibility for extended analytical runs. Undiluted urine samples from patients were analyzed alongside calibration standards over a continuous 13-hour sequence to assess drift, retention time stability and agreement between the two calibration strategies.
Methodology and Instrumentation
The separation system consisted of an Agilent 1260 HPLC equipped with an arsenic speciation column and guard column. Mobile phase comprised phosphate buffer with EDTA, acetate, nitrate and ethanol at pH 11.0, purged with argon, flowing at 1.0 mL/min. A 5 µL injection volume was used for both standards and urine samples. The LC was directly coupled to an Agilent 7700x ICP-MS operated at 1550 W RF power, with optimized gas flows and a cooled spray chamber. Full control and data acquisition were performed via MassHunter Workstation software.
Main Results and Discussion
The overlaid chromatograms of a 50 µg/L arsenic standard injected 48 times over 13 hours showed minimal retention time shift and no significant signal drift, demonstrating excellent system stability. Comparison of CIC versus CSC quantitation across five arsenic species (arsenobetaine, MMA, As(III), DMA, As(V)) in multiple patient samples revealed average CIC/CSC ratios ranging from 0.89 to 1.16, indicating close agreement. The largest deviation occurred for dimethylarsinic acid (DMA), suggesting slight species-dependent sensitivity differences, but overall performance confirmed CIC as a viable alternative.
Practical Applications and Benefits of the Method
- Reduces reliance on expensive or unavailable pure species standards by using a single inorganic arsenic calibration.
- Simplifies method setup and reduces operational costs for routine arsenic speciation in clinical or environmental laboratories.
- Maintains accuracy and precision comparable to traditional calibration schemes over extended analytical sequences.
- Enables quantitation of unexpected or unknown arsenic species without dedicated standards.
Future Trends and Potential Applications
Further developments may include automated software routines for real-time CIC implementation across multi-element speciation workflows. Expanding CIC to other heteroatom elements (Se, Sn, Hg) and complex matrices could broaden its impact. Integration with high-resolution chromatography or tandem mass spectrometry may enhance selectivity and allow identification of novel metabolites or emerging contaminants.
Conclusion
The compound independent calibration approach using As(V) delivers robust, accurate quantitation of arsenic species in undiluted urine, offering significant cost and logistical advantages over compound-specific calibration. Its demonstrated stability and agreement make CIC a powerful tool for high-throughput speciation methods, addressing key challenges in routine analytical chemistry practice.
References
- Sakai T., Wilbur S. Routine Analysis of Toxic Arsenic Species in Urine Using HPLC with ICP-MS. Agilent Technologies Application Note, Pub. No. 5989-5505EN, 2010.
- Wahlen R., Woods G. Application of Compound Independent Calibration (CIC) Software for the Quantitation of As-species in Undiluted Urine by LC-ICP-MS. Agilent Technologies, 2011.
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