Qualitative and Quantitative Analysis of Gentamicin Sulfate and Related Impurities on ACQUITY UPLC with QDa
Applications | 2019 | WatersInstrumentation
Gentamicin sulfate is a critical aminoglycoside antibiotic composed of multiple active components and structurally similar impurities. Accurate identification and quantification of both major constituents and trace-level impurities are essential for ensuring drug safety, therapeutic efficacy, and compliance with regulatory standards.
This study describes the development of a rapid, robust UPLC-MS method for simultaneous qualitative and quantitative analysis of gentamicin sulfate and its related impurities. The approach leverages an ACQUITY UPLC H-Class System coupled with an ACQUITY QDa Detector to separate five principal gentamicin components (C1, C1a, C2, C2a, C2b) along with sisomicin, garamine, G-418, and gentamicin A/B within a 35-minute runtime.
The chromatographic method employed an Atlantis T3 column (4.6 × 150 mm, 3 µm) under a gradient from aqueous 0.2% TFA (pH 2.3) mixed with acetonitrile/isopropanol to methanol:
The ACQUITY QDa Detector operated in positive ESI mode (150–1000 m/z), capillary 0.8 kV, cone voltage 10 V, sampling rate 1 pt/sec. Data acquisition and processing were performed with Empower 3 CDS.
System suitability met or exceeded USP/EP criteria:
This UPLC-QDa platform provides:
Future enhancements may include integration of compact MS detectors for real-time process monitoring, automated impurity profiling workflows, and coupling with UHPLC for further runtime reduction. Advanced data analytics and machine learning can further improve method robustness and QC efficiency.
A validated UPLC-QDa method was established for comprehensive qualitative and quantitative analysis of gentamicin sulfate and its related impurities. The method fulfills regulatory criteria for resolution, sensitivity, and reproducibility, supporting its application in pharmaceutical quality assurance.
LC/MS, LC/SQ
IndustriesPharma & Biopharma
ManufacturerWaters
Summary
Importance of the Topic
Gentamicin sulfate is a critical aminoglycoside antibiotic composed of multiple active components and structurally similar impurities. Accurate identification and quantification of both major constituents and trace-level impurities are essential for ensuring drug safety, therapeutic efficacy, and compliance with regulatory standards.
Aims and Overview of the Study
This study describes the development of a rapid, robust UPLC-MS method for simultaneous qualitative and quantitative analysis of gentamicin sulfate and its related impurities. The approach leverages an ACQUITY UPLC H-Class System coupled with an ACQUITY QDa Detector to separate five principal gentamicin components (C1, C1a, C2, C2a, C2b) along with sisomicin, garamine, G-418, and gentamicin A/B within a 35-minute runtime.
Methodology and Instrumentation
The chromatographic method employed an Atlantis T3 column (4.6 × 150 mm, 3 µm) under a gradient from aqueous 0.2% TFA (pH 2.3) mixed with acetonitrile/isopropanol to methanol:
- Flow rate: 0.6 mL/min
- Column temperature: 25 °C; sample temperature: 5 °C
- Injection volume: 1 µL
- Gradient: 100% aqueous for 18 min, linear to 100% methanol by 20 min, hold to 25 min, and re-equilibrate to 35 min
The ACQUITY QDa Detector operated in positive ESI mode (150–1000 m/z), capillary 0.8 kV, cone voltage 10 V, sampling rate 1 pt/sec. Data acquisition and processing were performed with Empower 3 CDS.
Results and Discussion
System suitability met or exceeded USP/EP criteria:
- Resolution: sisomicin/C1a 1.3 (>1.2); C2/C2b 2.3 (>1.5)
- Signal-to-noise >20 for sisomicin at 0.1 µg/mL
- LOD/LOQ for sisomicin: 0.03 µg/mL (S/N=9) and 0.1 µg/mL (S/N=27)
- Linearity over 0.15–1.5 µg/mL, R²=0.998
- Reproducibility: %RSD <5% for eight analytes
- Recovery: 105.96% for sisomicin spiked at 20 µg/mL
Benefits and Practical Applications of the Method
This UPLC-QDa platform provides:
- High throughput analysis with minimal runtime
- Selective, sensitive detection of non-UV-active aminoglycosides without derivatization
- Accurate quantification for pharmaceutical quality control and regulatory submissions
Future Trends and Potential Applications
Future enhancements may include integration of compact MS detectors for real-time process monitoring, automated impurity profiling workflows, and coupling with UHPLC for further runtime reduction. Advanced data analytics and machine learning can further improve method robustness and QC efficiency.
Conclusion
A validated UPLC-QDa method was established for comprehensive qualitative and quantitative analysis of gentamicin sulfate and its related impurities. The method fulfills regulatory criteria for resolution, sensitivity, and reproducibility, supporting its application in pharmaceutical quality assurance.
Reference
- Jammal N., AL-Mardini M.A. Development and Validation of LC-MS Method for the Estimation of Gentamicin Sulfate and its Impurities in Injections. Int. J. Pharm. Sci. Rev. Res. 2014, 27(1), 70–73.
- Grahneka R., Zupancic-Kralj L. Identification of Gentamicin Impurities by LC-MS/MS. J. Pharm. Biomed. Anal. 2009, 50(5), 1037–1043.
- European Pharmacopoeia. Gentamicin Sulphate. 2014, 8.1, 2326–2382.
- United States Pharmacopeia. Gentamicin Sulfate USP 37–NF32, 3138–3139.
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