LC-MS/MS Method for the Determination of Diclofenac in Human Plasma
Applications | 2012 | Thermo Fisher ScientificInstrumentation
Accurate quantification of diclofenac in human plasma is essential for pharmacokinetic studies, therapeutic drug monitoring, and safety assessments. High-throughput bioanalytical methods with low limits of quantification support clinical trials, drug–drug interaction studies and quality control in pharmaceutical research.
This work aimed to develop a rapid, sensitive and reproducible LC–MS/MS assay for diclofenac in human plasma. Key goals included minimizing sample preparation time, achieving a wide dynamic range (1–1000 ng/mL) and ensuring robust chromatographic performance within a one-minute cycle.
Sample pretreatment used solid-phase extraction on Thermo Scientific SOLA cartridges. Human plasma (200 µL) was spiked with diclofenac and an isotopically labeled internal standard (diclofenac-d4), acidified with formic acid and loaded onto conditioned SPE media. After washing, analytes were eluted with acetonitrile, evaporated under nitrogen, and reconstituted in 50:50 water/acetonitrile.
Chromatographic separation employed a reversed-phase Accucore RP-MS column (2.6 µm, 50×2.1 mm) with a 50% to 100% acetonitrile gradient (both phases containing 0.1% acetic acid) over one minute at 0.6 mL/min and 40 °C. A 20 µL injection volume and rapid needle washes ensured minimal carryover.
The calibration curve for diclofenac was linear from 1 to 1000 ng/mL with r2=0.999. Accuracy across eight calibration levels remained within ±17% at the lowest concentration and within ±1–2% at higher levels. The limit of quantification at 1 ng/mL produced clean, well-shaped peaks with negligible tailing. Six replicate quality control samples at 15 ng/mL showed precision below 4.4% CV. Recovery experiments yielded an average extraction efficiency of 85.8%.
Emerging directions include multiplexing assays for simultaneous NSAID profiling, integration of on-line SPE for full automation, miniaturized workflows for microsampling, and coupling with high-resolution mass spectrometry for untargeted metabolite identification.
The described LC–MS/MS method combining SOLA SPE and Accucore RP-MS UHPLC provides a fast, sensitive and reproducible approach for quantifying diclofenac in human plasma. Achieving an LOQ of 1 ng/mL, recovery >86% and precision <5% CV, this assay meets the demands of high-throughput bioanalysis and clinical research.
LC/MS, LC/MS/MS, LC/QQQ
IndustriesClinical Research
ManufacturerThermo Fisher Scientific
Summary
Importance of the Topic
Accurate quantification of diclofenac in human plasma is essential for pharmacokinetic studies, therapeutic drug monitoring, and safety assessments. High-throughput bioanalytical methods with low limits of quantification support clinical trials, drug–drug interaction studies and quality control in pharmaceutical research.
Study Objectives and Overview
This work aimed to develop a rapid, sensitive and reproducible LC–MS/MS assay for diclofenac in human plasma. Key goals included minimizing sample preparation time, achieving a wide dynamic range (1–1000 ng/mL) and ensuring robust chromatographic performance within a one-minute cycle.
Methodology
Sample pretreatment used solid-phase extraction on Thermo Scientific SOLA cartridges. Human plasma (200 µL) was spiked with diclofenac and an isotopically labeled internal standard (diclofenac-d4), acidified with formic acid and loaded onto conditioned SPE media. After washing, analytes were eluted with acetonitrile, evaporated under nitrogen, and reconstituted in 50:50 water/acetonitrile.
Chromatographic separation employed a reversed-phase Accucore RP-MS column (2.6 µm, 50×2.1 mm) with a 50% to 100% acetonitrile gradient (both phases containing 0.1% acetic acid) over one minute at 0.6 mL/min and 40 °C. A 20 µL injection volume and rapid needle washes ensured minimal carryover.
Used Instrumentation
- Thermo Scientific Accela 600 UHPLC system with Accucore RP-MS column (50×2.1 mm, 2.6 µm)
- Thermo Scientific TSQ Vantage triple quadrupole mass spectrometer equipped with a heated electrospray ionization (HESI) source
- Thermo Scientific SOLA 10 mg/1 mL SPE cartridges and 96-well plates
- Thermo Scientific UltraVap sample evaporator and 96-well plate vacuum manifold
- LCQuan software for data processing
Results and Discussion
The calibration curve for diclofenac was linear from 1 to 1000 ng/mL with r2=0.999. Accuracy across eight calibration levels remained within ±17% at the lowest concentration and within ±1–2% at higher levels. The limit of quantification at 1 ng/mL produced clean, well-shaped peaks with negligible tailing. Six replicate quality control samples at 15 ng/mL showed precision below 4.4% CV. Recovery experiments yielded an average extraction efficiency of 85.8%.
Benefits and Practical Applications
- High throughput: one-minute chromatographic cycle accelerates sample analysis in clinical and bioanalytical labs.
- Low solvent consumption and simplified SPE workflow reduce operational costs.
- Robust performance ensures reproducibility and confidence in pharmacokinetic and toxicology studies.
Future Trends and Potential Applications
Emerging directions include multiplexing assays for simultaneous NSAID profiling, integration of on-line SPE for full automation, miniaturized workflows for microsampling, and coupling with high-resolution mass spectrometry for untargeted metabolite identification.
Conclusion
The described LC–MS/MS method combining SOLA SPE and Accucore RP-MS UHPLC provides a fast, sensitive and reproducible approach for quantifying diclofenac in human plasma. Achieving an LOQ of 1 ng/mL, recovery >86% and precision <5% CV, this assay meets the demands of high-throughput bioanalysis and clinical research.
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