Abstract
The plasma clearance and metabolic rate characteristics of valproic acid (VPA) were studied using guinea-pigs placed on various (0.08-9 mumol ml-1 = 11-1303 micrograms ml-1) steady-state plasma concentrations (Css) by constant intravenous (i.v.) infusion. The total clearance (CL) was significantly decreased at plasma concentration of 0.61 mumol ml-1 (88 micrograms ml-1). The metabolic clearance of VPA was apparently biphasic. The maximum metabolic rate (Vmax) and the Michaelis-Menten constant (Km) for the primary (Vmax1, Km1) and the secondary (Vmax2, Km2) pathways were Vmax1 = 1.52 mumol min-1 kg-1, Km1 = 0.15 mumol ml-1, Vmax2 = 24.98 mumol min-1 kg-1 and Km2 = 11.70 mumol ml-1, respectively. The Km1 value was within clinical therapeutic concentration range. The formation of conjugated VPA (cjVPA) metabolite in liver was shown to be saturable. Plasma protein binding of VPA was also nonlinear. The dose-dependent decrease in metabolic clearance was counterbalanced by the increased unbound fraction (fu), resulting in a relatively constant apparent clearance of VPA over a wide concentration range. The hepatic concentration of VPA was not significantly different from the plasma unbound concentration, again over a wide concentration range. The biliary and hepatic concentrations of VPA were not significantly different; but the concentration ratio of cjVPA in bile compared with that of VPA in liver decreased against hepatic concentration of VPA, which suggests a saturable conjugation rate. The Km value estimated from hepatic cjVPA production as a function of plasma VPA concentration was comparable with the Km1 value.(ABSTRACT TRUNCATED AT 250 WORDS)
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