BackgroundPharmacokinetic studies are vital in development and optimization of drugs. While blood samples can be collected either in EDTA, heparin or citrate containing tubes for the estimation of drug levels in plasma, EDTA tubes are more commonly used. The purpose of this study was to evaluate the effects of anticoagulants on bioanalysis of drugs. Six drugs used extensively in cancer therapy were selected. Albino wistar rats (N = 6 per drug) were dosed with one of the following drugs intraperitoneally—pemetrexed (50 mg/kg), imatinib (50 mg/kg), erlotinib (25 mg/kg), meropenem (60 mg/kg), 6-mercaptopurine (20 mg/kg) and voriconazole (6 mg/kg). Blood samples were collected 2 h after dosing (1 h in 6-mercaptopurine group due to short half-life) by terminal bleeding from the retro-orbital plexus. Blood was collected in each of Disodium ETDA, heparin, trisodium citrate (TSC) and no anticoagulant (plain) tubes. Drug levels in these samples were determined by validated HPLC assays. ANOVA with Tukey’s post hoc test was performed to identify statistically significant differences in drug concentrations in anticoagulant tubes. p < 0.05 was considered statistically significant.ResultsSignificant differences in concentration between anticoagulant tubes was observed in case of erlotinib (p = 0.013) and meropenem (p = 0.00), while borderline statistical significance for pemetrexed (p = 0.076). TSC tubes overestimated erlotinib levels, heparin tubes underestimated meropenem concentrations and EDTA tubes overestimated pemetrexed concentrations.ConclusionsCareful selection of anti-coagulant is necessary for accurate characterization of pharmacokinetics of drugs. Routine use of EDTA tubes may lead to erroneous interpretation of pharmacokinetic data.Electronic supplementary materialThe online version of this article (doi:10.1186/s40064-016-3770-4) contains supplementary material, which is available to authorized users.
Aim: To develop a sensitive HPLC method for the quantitation of sunitinib (SU) and its active metabolite N-desethyl-sunitinib (SU12662) in human plasma. Materials & methods: The analytes were extracted from 500 μl of plasma using liquid–liquid extraction followed by protein precipitation. Chromatographic separation of two analytes and internal standard, vandetenib, was achieved on a hydrophilic interaction liquid chromatography analytical column using a gradient program. Calibration curves were linear over the range of 10–250 ng/ml for both SU and SU12662. The method was validated according to the US FDA guidelines for bioanalytical methods. Accuracy of the method at 10 ng/ml for SU and SU12662 was 8.7 and 6.7%, respectively, and precision was 10.18% and 17.3%, respectively. Conclusion: This method allows a specific, sensitive and reliable determination of SU and SU12662 in human plasma in a single analytical run which makes it useful for therapeutic drug monitoring.
Objectives The anti-inflammatory activity of Boswellia serrata extracts (BSE) is well known. BSE comprises boswellic acids (BA) such as 3-O-acetyl-11-keto-beta-boswellic acid (AKBA) and 11-keto-boswellic acid (KBA) as major constituents. One of the limitations of BAs is their poor oral bioavailability. The aim of the study was to prepare solid lipid particles of Boswellia serrata extract (SLBSP) to enhance the bioavailability of BAs. Methods The pharmacokinetic profile of BAs was studied in 10 healthy human volunteers following a single oral dose of 333 mg of SLBSP. Pharmacokinetic blood samples were collected at 0.5, 1, 1.5, 2, 2.5, 3, 4, 5, 6, 8, and 12 h post drug administration. Plasma KBA and AKBA levels were measured using a validated LC-MS/MS method. Pharmacokinetics parameters were estimated using Pheonix WinNonlin (Build 6.4.0.768) software. Results Ten healthy human volunteers were included and peak plasma concentration was achieved in 1.5 and 2.3 h for AKBA and KBA respectively. Maximum plasma concentration (C max) was 8.04 ± 1.67 ng/mL for AKBA and 23.83 ± 4.41 ng/mL for KBA whereas the corresponding area under the concentration-time curve (AUC) was 136.7 ± 56.77 ng/mL*h and 165.7 ± 24.5 ng/mL*h respectively. The elimination half-life (t 1/2) of AKBA and KBA was 6.8 ± 3.0 h and 2.45 ± 0.3 h respectively. Conclusions The SLBSP formulation of BSE showed enhanced oral bioavailability of BAs compared with historically reported data of unformulated BSE.
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