Sensitive and specific methods for the simultaneous determination of gemfibrozil (Lopid), a lipid-lowering agent, and its metabolites in plasma and urine are described. The methods are based on a fully automated high performance liquid chromatographic (HPLC) system with fluorescence detection. Urine samples, diluted with acetonitrile, were directly analysed by HPLC using a flow and eluent programming method. In the case of plasma, gemfibrozil and its main metabolites were extracted from acidified samples and the resulting extracts injected into the chromatographic system. The sensitivity was approximately 100 ng/mL for gemfibrozil and its four metabolites using 0.5 mL plasma or urine. An acyl glucuronide of gemfibrozil excreted in human urine after oral administration of the drug was isolated and its structure and stability examined.
A competitive enzyme-linked immunosorbent assay (ELISA) was developed for determination of CS-518, a novel thromboxane synthetase inhibitor. Antisera against CS-518 were obtained from rabbits immunized with bovine serum albumin linked to CS-518 via carboxylic acid introduced into the imidazolyl ring (for ELISA-1) or via 6-carboxylic acid directly (for ELISA-2). Each of two CS-518 derivatives was conjugated to horseradish peroxidase by a N-succinimidyl ester method, and it was used as a labeled-antigen in homogeneous combination with antisera. In ELISA-1, CS-518 was detectable in a range of 5pg-1ng, and all cross-reactivities with main metabolites were less than 5%, in contrast to high affinity to the taurine and glucuronic acid conjugates of CS-518 in ELISA-2. Validity of ELISA-1 was confirmed by a high-performance liquid chromatography and ELISA-1 enabled specific determination of CS-518 in plasma samples deproteinized by methanol. When ELISA-1 was applied to determine CS-518 in platelets after oral administration to rabbits, CS-518 uptake up to maximum capacity in platelets (4.2-5.4 x 10(6) M) and slow elimination of CS-518 from platelets (T1/2 = 36-41 hr) were observed independent of CS-518 doses. These results confirm that CS-518 binds to thromboxane synthetase in platelets with high affinity.
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