High-performance liquid chromatography with fluorometric detection for monitoring of etoposide and its cis-isomer in plasma and leukaemic cells.

The podophyllotoxin derivative etoposide, extensively used in anticancer therapy, is highly protein-bound (95%) in plasma. It is a chiral drug and only the trans-isomer is pharmacologically active. Isomerisation to the inactive cis-lactone occurs in plasma. The cis-lactone is often present in ultrafiltrates of plasma from patients treated with etoposide, therefore it is important to separate the isomers when free etoposide concentrations are assayed. There is reason to believe that free and cellular concentrations are more important for the effect of etoposide therapy than total plasma concentrations. A high-performance liquid chromatographic (HPLC) method for quantification of etoposide and its cis-isomer in plasma, total and non-protein-bound concentrations, and in leukaemic cells is described. After addition of teniposide as internal standard the drugs were extracted with chloroform. Etoposide, its cis-isomer, teniposide and endogenous substances were separated isocratically on a Spherisorb phenyl reversed-phase column. Detection was performed fluorometrically, lambda ex/em = 230/330 nm. Non-protein-bound concentrations were determined after ultrafiltration. The detection limit for etoposide was 10 ng/ml plasma, 25 ng/ml ultrafiltrate and 10 ng/50 x 10(6) cells. The sensitivity of the assay for the cis-lactone was twice as high due to higher fluorescence. The protein binding of the cis-lactone in plasma from ten healthy blood donors was 54.5 +/- 4.8% (mean +/- S.D.). Thus, the free fraction was about ten-fold higher than that of the mother compound. The assay is convenient and sensitive enough for the determination of free and cellular fractions of etoposide.