Triethylphosphine gold-2,3,4,6-tetra-o-acetyl-L-thio-D-glucopyranoside (auranofin and sodium aurothiomalate; Myocrisin are two chemically different gold compounds used to treat rheumatoid arthritis. This study highlights the interaction, in vivo, of these drugs with erythrocyte membrane in patients with rheumatoid arthritis. Fifty-eight patients with definite or classical rheumatoid arthritis were included in this study and randomly allocated to three groups as 18 patients in the Myocrisin group, 20 patients in the auranofin group, and 20 patients in the placebo group. The drugs appeared to react, in vivo, in different ways. With Myocrisin, the level of gold in erythrocyte membrane was, initially, very high and decayed exponentially afterwards, whereas auranofin produced a constant high level up to 36 weeks. The erythrocyte membrane gold level in nonsmokers was higher than that in smokers in the auranofin group, and it decreased with an increase in the number of cigarettes smoked (r = 0.836 P < 0.01); no such correlation was observed in the Myocrisin group. In a changeover study, auranofin appeared to change the nature of erythrocyte membrane after reacting with it and rendering it incapable of picking up any gold from Myocrisin. In the case of auranofin, the hemolysate membrane gold level was found to correlate with clinical improvement.
This study was aimed at determination of pharmacokinetic parameters of copper (II) acetylsalicylate (CAS). Ten volunteers received a 60-mg dose of CAS. Blood samples were collected just before and after 0.25, 0.5, 0.75, 1.0, 1.5, 2.5, 3.0, 3.5, 4.0, 4.5, 5.5, 7.0, 10, and 12.0 h of administration of the drug. The plasma samples were analyzed for CAS and its metabolites by a validated high-performance liquid chromatography method having a suitable lower limit of quantification. The dose of 60 mg was well tolerated without any adverse effect. The maximum plasma concentration of CAS was found to be 0.38 mg L(-1) with t (max) of 0.72 h. The plasma half-life, clearance, and volume of distribution of CAS were 8.67 h, 66.30 L h(-1) and 829 L kg(-1), respectively. The elimination of CAS, acetylsalicylic acid, copper salicylate, and salicylic acid follows the first order kinetics with r (2) 0.979, 0.880, 0.991, and 0.998, respectively. The study provided for the first time the pharmacokinetic data for CAS after oral administration of CAS. The data were found to be useful in understanding the claimed enhanced anti-inflammatory activity of the drug as compared with that of acetylsalicylic acid.
The study was aimed at determination of pharmacokinetic parameters of a previously synthesized salicylidine-sulfamethoxazole-Zn(II) monohydrate in normal humans. This new derivative of sulfamethoxazole was reported to be more active and less toxic than the parent drug by our group. 10 volunteers received a 200 mg dose of the drug orally. Blood samples were collected just before and after 0.16, 0.33, 0.5, 1.0, 2.0, 3.0, 4.0, 5.0, 6.0, 7.0 and 8.0 h of administration of the drug. The plasma samples were analyzed for sulfamethoxazole by a new validated high performance liquid chromatography method having a suitable limit of quantification. The dose of each drug was well tolerated without any adverse effect. The maximum plasma sulfamethoxazole concentration was 280 μg L - 1 at a tmax 1.30 h. This suggests a rapid onset effect of the complex as compared with the parent drug. The plasma half-life, clearance, and volume of distribution of sulfamethoxazole from salicylidine-sulfamethoxazole-Zn(II) monohydrate were 1.64 h, 0.24 L h - 1 and 0.57 L kg - 1 respectively. The elimination of sulfamethoxazole followed the first order kinetics with R2>0.984. The larger value of volume of distribution and clearance for the new derivative, as compared to that of the parent drug, show that the new derivative may exhibit prolonged antimicrobial effect with rapid clearance.
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