This work aims to develop and validate a simple methodology to quantify the most used antiretroviral, zidovudine
(AZT), in rat plasma for preclinical studies. Some assays have been previously reported to quantify AZT in
plasma; however, the majority of these methods uses complicated extraction methods. This method uses only 100 µL
plasma samples, which were precipitated with 100 µL acidified acetonitrile containing an internal standard (IS). The
plasma extracts were injected directly in a chromatographic system consisting of a UV–Vis detector (set at 266 nm) and
an RP-C18 column. The mobile phase was an isocratic mixture of acetonitrile, methanol and 0.01% v/v aqueous formic
acid (20:20:60 v/v/v) at a flow rate of 0.8 mL/min. Intra- and inter-day assay precision and accuracy variability were
lower than 20% for the limit of quantification and 15% for higher concentrations. The applicability of the method was
demonstrated by an in vivo study performed in rats. They were treated orally with an AZT-containing syrup and intravenously
with an AZT solution. The calculated bioavailability of the syrup (56.7%) was in accordance with the literature.
Therefore, this method can be used as an alternative to quantify plasma AZT in preclinical studies.
Keywords: Liquid-liquid extraction, pharmacokinetics, rat plasma, HPLC-UV bioanalytical methodology, validation,
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