1. An automated method for the bioanalysis of vincristine suitable for therapeutic drug monitoring and pharmacokinetic studies in young children
- Author
-
Koopmans, P, Gidding, CEM, Uges, DRA, Faculteit Medische Wetenschappen/UMCG, and Groningen Research Institute of Pharmacy
- Subjects
small sample volume ,children ,analysis ,electrochemical detection ,LIQUID-CHROMATOGRAPHY ,on-column SPE ,LLQ ,vincristine - Abstract
Pharmacokinetic studies in young children require very sensitive methods using low plasma volumes. Although vincristine has been used as an antineoplastic drug for almost 40 years, data on vincristine pharmacokinetics and pharmacodynamics are scarce, especially in young children. One of the reasons for this is the lack of a specific and sensitive assay suitable for small plasma volumes. Therefore the authors aimed to improve an existing high-performance liquid chromatography (HPLC) assay by changing the solid-phase extraction material and by using a more sensitive and controlled electrochemical detector. An on-line solid-phase extraction was used with a preconcentration column of 10 . 3 min ID containing octadecyl silane (ODS) reversed-phase material and an analytical microsphere C18 column. The mobile phase was unchanged and consisted of 35% phosphate buffer 0.02 mol (pH 7.00 +/- 0.10), 50% methanol, and 15% acetonitrile. Detection was performed with a new electrochemical detector. This detector comprised a highly stable Faraday-shielded oven compartment that accommodated a column and flowcell. The flowcell had a spacer thickness of 0.25 mum set at 830 mV. It also had an excellent signal-to-noise ratio, which resulted in very sensitive electrochemical analysis. These improvements resulted in a lower required sample volume of only 0.3 mL instead of 1.2 mL plasma with a very low Emit of quantitation of 0.483 mug/L according to good laboratory practice (GLP) rules. The intraday coefficients of variation were 6.2% (0.483 mug/L) and 4.2% (18.4 mug/L). The interday coefficients of variation were 10.3% (0.483 mug/L) and 8.5% (18.4 mug/L).
- Published
- 2001