Assay for citrate and phosphate in pharmaceutical formulations using a compact IC system
Applications | 2024 | Thermo Fisher ScientificInstrumentation
Citric acid and phosphate are widely used in pharmaceutical formulations for their buffering capacity, flavor enhancement, stability improvement, and anticoagulant properties. Precise and reproducible measurement of these anions is essential to meet regulatory requirements, ensure batch‐to‐batch consistency, and maintain product safety and performance.
This proof note evaluates a compact ion chromatography (IC) system for the simultaneous quantification of citrate and phosphate in pharmaceutical samples. The method is based on the USP General Chapter 345 ion chromatography assay and is optimized for ease of use and minimized manual intervention using an electrolytic eluent generator.
The assay employs suppressed conductivity detection following isocratic elution with 20 mM KOH at 2 mL/min. Standards and samples are injected in 10 µL volumes. Separation is achieved on an anion‐exchange column maintained at 30 °C, with total run time of 10 minutes. Baseline stability is ensured by continuous eluent regeneration and online degassing.
The method achieved clear resolution of phosphate and citrate peaks within a 10-minute cycle. System backpressure remained stable around 2,570 psi. Signal‐to‐noise ratio was excellent (noise < 1.5 nS), and background drift was negligible (0.3 µS/min). Quantitation of a test formulation yielded concentrations of 1.67 mg/L for phosphate and 19.9 mg/L for citrate, demonstrating accuracy and reproducibility in line with pharmacopeial criteria.
Advances in microfluidic IC, enhanced detector sensitivity, and integrated data analytics will further simplify pharmaceutical assay workflows. Emerging applications include online process monitoring and real‐time batch release testing.
The compact IC system with electrolytic eluent generation provides a robust, efficient, and user‐friendly approach for simultaneous citrate and phosphate analysis in pharmaceutical formulations, meeting regulatory standards and enhancing laboratory productivity.
Ion chromatography
IndustriesPharma & Biopharma
ManufacturerThermo Fisher Scientific
Summary
Significance of the Topic
Citric acid and phosphate are widely used in pharmaceutical formulations for their buffering capacity, flavor enhancement, stability improvement, and anticoagulant properties. Precise and reproducible measurement of these anions is essential to meet regulatory requirements, ensure batch‐to‐batch consistency, and maintain product safety and performance.
Objectives and Study Overview
This proof note evaluates a compact ion chromatography (IC) system for the simultaneous quantification of citrate and phosphate in pharmaceutical samples. The method is based on the USP General Chapter 345 ion chromatography assay and is optimized for ease of use and minimized manual intervention using an electrolytic eluent generator.
Methodology
The assay employs suppressed conductivity detection following isocratic elution with 20 mM KOH at 2 mL/min. Standards and samples are injected in 10 µL volumes. Separation is achieved on an anion‐exchange column maintained at 30 °C, with total run time of 10 minutes. Baseline stability is ensured by continuous eluent regeneration and online degassing.
Used Instrumentation
- Thermo Scientific Dionex Inuvion compact IC system with autosampler
- Dionex IonPac AS11 analytical column (4 × 250 mm) and AG11 guard column (4 × 50 mm)
- Electrolytic eluent generator with EGC 500 KOH cartridge and CR-ATC 600 trap column
- Dionex ADRS 600 suppressor operated in recycle mode at 99 mA
- RFIC eluent degasser and conductivity detector
Main Results and Discussion
The method achieved clear resolution of phosphate and citrate peaks within a 10-minute cycle. System backpressure remained stable around 2,570 psi. Signal‐to‐noise ratio was excellent (noise < 1.5 nS), and background drift was negligible (0.3 µS/min). Quantitation of a test formulation yielded concentrations of 1.67 mg/L for phosphate and 19.9 mg/L for citrate, demonstrating accuracy and reproducibility in line with pharmacopeial criteria.
Benefits and Practical Applications
- Automated eluent preparation reduces reagent handling and potential operator error.
- Compact system design and intuitive software shorten method setup and training time.
- High reproducibility and rapid cycle times support high‐throughput QC environments.
- Compatibility with USP 345 ensures regulatory compliance.
Future Trends and Opportunities
Advances in microfluidic IC, enhanced detector sensitivity, and integrated data analytics will further simplify pharmaceutical assay workflows. Emerging applications include online process monitoring and real‐time batch release testing.
Conclusion
The compact IC system with electrolytic eluent generation provides a robust, efficient, and user‐friendly approach for simultaneous citrate and phosphate analysis in pharmaceutical formulations, meeting regulatory standards and enhancing laboratory productivity.
References
- Thermo Scientific Application Note 164: Assay for Citrate and Phosphate in Pharmaceutical Formulations.
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