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Aim: Pharmacokinetic studies in children are limited, in part due to challenges in blood sampling. We compare the use of capillary microsampling and conventional sampling techniques in pediatric patients to show results that can be used in the pharmacokinetic analysis of Cefazolin. Patients & Methods: Paired blood samples (n = 48) were collected from 12 patients (median age/weight 49 months/18 kg). Results: The United States Federal Drug Administration incurred sample reanalysis acceptance criteria was used and identified 79% of paired samples achieved a difference of less than 20% in magnitude with a capillary microsampling bias of -10% (SD 20%). With exclusion of PK outliers, this rose to 88%. Conclusion: Capillary microsampling is reliable, meets acceptance criteria and can be used in pharmacokinetic studies.ACTRN: 12618001469202.
What is this article about? This study assesses a novel method of blood sample collection (capillary microsampling) for the analysis of a common antibiotic, cefazolin. In this study, we compare the results from samples collected using this method to blood tests taken in the traditional way.Capillary microsampling collects a very small volume of blood (about a drop of blood or 0.05 ml) taken from a skin prick and collected in a capillary tube. Traditional blood sampling collects a larger volume of blood (typically from 1 to 3 ml) taken from an artery or a vein. In this study, the patients (10 male and 2 female) had a mean age of 49 months and a mean weight of 18 kg. The amount of cefazolin in the blood samples were analyzed using the same methodology and results compared with assess the variability and reliability of the capillary microsampling method.What were the results? The results showed that difference of the two sample types is within the accepted criteria of the United States Federal Drug Administration and the European Medicines Agency, meaning the results are reliable.What do the results of the study mean? Blood samples for cefazolin can be small and easily obtained from a skin prick as a capillary microsample and can give reliable results. This greatly aids the ability to study the metabolism of cefazolin in children, particularly those that are not able to give a large amount of blood.
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A rapid LC-MS/MS assay method for simultaneous quantification of morphine, fentanyl, midazolam and their major metabolites: morphine-3-ß-D-glucuronide (M3G), morphine-6-ß-D-glucuronide (M6G), norfentanyl, 1'-hydroxymidazolam (1-OH-MDZ) and 4-hydroxymidazolam (4-OH-MDZ) in samples of human plasma has been developed and validated. Robotic on-line solid phase extraction (SPE) instrumentation was used to elute the eight analytes of interest from polymeric SPE cartridges to which had been added aliquots (150 µL) of human plasma and aliquots (150 µL) of a mixture of two internal standards, viz. morphine-d3 (200 ng/mL) and 1'-hydroxymidazolam-d5 (50 ng/mL) in 50 mM ammonium acetate buffer (pH 9.25). Cartridges were washed using 10% methanol in ammonium acetate buffer, pH 9.25 (1 mL, 2 mL/min) before elution with mobile phase comprising 0.1% formic acid in water (A) and acetonitrile (B) with a flow rate of 0.6 mL/min using an 11.5 min run time. The analytes were separated on a C18 X-Terra® analytical column. The linear concentration ranges were 0.5-100 ng/mL for fentanyl, norfentanyl and midazolam; 1-200 ng/mL for 4-hydroxymidazolam, 2.5-500 ng/mL for 1'-hydroxymidazolam and 3.5-700 ng/mL for morphine, M3G, and M6G. The method showed acceptable within-run and between-run precision (relative standard deviation (RSD) and accuracy <20%) for quality control (QC) samples spiked at concentrations of 80% and 50% of the ULOQ, 3 times higher than the LLOQ, and also at the LLOQ. Furthermore, analytes were stable in samples (after mixing with internal standard) for at least 48 h in the autosampler (except for 4-hydroxymidazolam which decreased by 22% after 24 h), 5 h at room temperature and after three cycles of freeze and thaw. No autosampler carry-over was observed and the absolute recovery (the area ratio of analyte in plasma relative to that in ammonium acetate buffer 50 mM, pH 9.25) was in the range 40% (midazolam) to 110% (morphine). The assay was applied successfully to the measurement of the analytes of interest in plasma samples from patients on extracorporeal membrane oxygenation (ECMO).