WCPS: Application of Compound Independent Calibration (CIC) Software for the Quantitation of As-species in Undiluted Urine by LC-ICP-MS
Posters | 2011 | Agilent TechnologiesInstrumentation
The accurate determination of arsenic species in biological fluids is critical for assessing exposure, understanding metabolic pathways and ensuring regulatory compliance. Undiluted urine presents a complex matrix where species such as arsenobetaine, monomethylarsonic acid, arsenite, dimethylarsinic acid and arsenate must be reliably quantified. Compound independent calibration addresses the challenge of limited availability and high cost of pure species standards by exploiting the element–specific response of ICP-MS.
This study compares traditional compound-specific calibration (CSC) with compound independent calibration (CIC) for quantitating five arsenic species in undiluted human urine. By using a single inorganic arsenic standard (As(V)) to calibrate all species, the work evaluates signal stability, retention time drift and accuracy over a prolonged analytical run, and explores the feasibility of CIC as an alternative to CSC.
A mobile phase of 2.0 mM PBS, 0.2 mM EDTA, 10 mM sodium acetate, 3.0 mM sodium nitrate and 1% ethanol (pH 11) was continuously purged with argon. Flow rate was set at 1.0 mL/min with a 5 µL injection volume. The ICP-MS operated at 1550 W RF power, 1.04 L/min carrier gas and 0.3 L/min makeup gas; the spray chamber was maintained at 2 °C and a sample depth of 9 mm. Calibration standards and twelve urine samples were each injected in triplicate over a 13 h runtime to assess robustness.
Overlay of chromatograms for a 50 µg/L mixed arsenic standard over 36 injections showed minimal retention time drift. Comparison of CSC and CIC quantitation yielded CIC/CSC ratios close to unity across all five species, with average ratios of 0.99 for arsenobetaine, 0.90 for MMA, 0.89 for As(III), 1.16 for DMA and exactly 1.00 for As(V). This demonstrates that calibrating all peaks against a single As(V) standard delivers comparable accuracy to species-specific standards. CIC also offers the potential to quantify unexpected or unknown arsenic compounds (e.g. arsenosugars) without dedicated standards.
Further improvements may arise from combining two or more readily available species to refine calibration linearity. The CIC approach can be integrated into routine biomonitoring, environmental testing and industrial quality control workflows. Advances in software algorithms will facilitate automated detection and quantitation of novel heteroatom-containing analytes. Expansion to other elements and coupling with high-resolution separations will broaden the scope of species-independent calibration.
This work confirms that compound independent calibration using inorganic arsenic as a universal standard is a robust, accurate and cost-effective alternative to compound specific calibration for arsenic speciation in undiluted urine. CIC simplifies routine analysis and enhances the capability to quantify both known and unforeseen species.
HPLC, ICP/MS, Speciation analysis
IndustriesClinical Research
ManufacturerAgilent Technologies
Summary
Significance of the Topic
The accurate determination of arsenic species in biological fluids is critical for assessing exposure, understanding metabolic pathways and ensuring regulatory compliance. Undiluted urine presents a complex matrix where species such as arsenobetaine, monomethylarsonic acid, arsenite, dimethylarsinic acid and arsenate must be reliably quantified. Compound independent calibration addresses the challenge of limited availability and high cost of pure species standards by exploiting the element–specific response of ICP-MS.
Aims and Overview of the Study
This study compares traditional compound-specific calibration (CSC) with compound independent calibration (CIC) for quantitating five arsenic species in undiluted human urine. By using a single inorganic arsenic standard (As(V)) to calibrate all species, the work evaluates signal stability, retention time drift and accuracy over a prolonged analytical run, and explores the feasibility of CIC as an alternative to CSC.
Used Instrumentation
- Agilent 1260 HPLC configured with an arsenic speciation column (G3288-80000, 4.6×250 mm) and guard column (G3154-65002)
- Agilent 7700x ICP-MS
- MassHunter Workstation software for full control of both HPLC and ICP-MS
Methodology
A mobile phase of 2.0 mM PBS, 0.2 mM EDTA, 10 mM sodium acetate, 3.0 mM sodium nitrate and 1% ethanol (pH 11) was continuously purged with argon. Flow rate was set at 1.0 mL/min with a 5 µL injection volume. The ICP-MS operated at 1550 W RF power, 1.04 L/min carrier gas and 0.3 L/min makeup gas; the spray chamber was maintained at 2 °C and a sample depth of 9 mm. Calibration standards and twelve urine samples were each injected in triplicate over a 13 h runtime to assess robustness.
Main Results and Discussion
Overlay of chromatograms for a 50 µg/L mixed arsenic standard over 36 injections showed minimal retention time drift. Comparison of CSC and CIC quantitation yielded CIC/CSC ratios close to unity across all five species, with average ratios of 0.99 for arsenobetaine, 0.90 for MMA, 0.89 for As(III), 1.16 for DMA and exactly 1.00 for As(V). This demonstrates that calibrating all peaks against a single As(V) standard delivers comparable accuracy to species-specific standards. CIC also offers the potential to quantify unexpected or unknown arsenic compounds (e.g. arsenosugars) without dedicated standards.
Benefits and Practical Applications of the Method
- Eliminates need for multiple costly or unavailable pure species standards
- Reduces calibration workload and reagent costs
- Maintains quantitative accuracy and reproducibility over extended runs
- Extends applicability to unknown arsenic species based on total As response
Future Trends and Applications
Further improvements may arise from combining two or more readily available species to refine calibration linearity. The CIC approach can be integrated into routine biomonitoring, environmental testing and industrial quality control workflows. Advances in software algorithms will facilitate automated detection and quantitation of novel heteroatom-containing analytes. Expansion to other elements and coupling with high-resolution separations will broaden the scope of species-independent calibration.
Conclusion
This work confirms that compound independent calibration using inorganic arsenic as a universal standard is a robust, accurate and cost-effective alternative to compound specific calibration for arsenic speciation in undiluted urine. CIC simplifies routine analysis and enhances the capability to quantify both known and unforeseen species.
References
- T Sakai, S Wilbur. Routine Analysis of Toxic Arsenic Species in Urine Using HPLC with ICP-MS. Agilent application note, publication number 5989-5505EN, 2011.
- Raimund Wahlen, Glenn Woods. Application of Compound Independent Calibration Software for the Quantitation of As-species in Undiluted Urine by LC-ICP-MS. Agilent Technologies UK, January 2011.
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