Aims The study aimed to show whether autoinduction of valproate (VPA) along its b-oxidation pathway occurred upon chronic dosing in humans.Methods Twelve young volunteers without active illness took sodium valproate (NaVPA) 200 mg orally 12 hourly for 3 weeks. On days 7 and 21, serial blood samples and all urine passed over an interdosing interval from 08.00 to 20.00 h were collected for analysis of VPA and certain metabolites. Results Plasma AUC(0,12 h) of VPA was signi®cantly lower on day 21 than on day 7 (2.40 vs 2.84 mmol ml x1 h, 95% CI for the difference 0.13±0.81 mmol ml x1 h).Signi®cant differences in plasma AUC(0,12 h) of the b-oxidation metabolites E-2-en-VPA and 3-oxo-VPA were not found. However, formation clearances of plasma VPA to urinary E-2-en-VPA and 3-oxo-VPA were signi®cantly increased from day 7 to day 21 (0.010 vs 0.024 and 2.57 vs 3.60 ml kg x1 h x1 , respectively, 95% CI for the differences x0.025 to x0.004 and x1.72 to x0.34 ml kg x1 h x1 , respectively). Formation clearances to VPA-glucuronide (0.534 vs 0.505 ml kg x1 h x1 ) and 4-OH-VPA (0.112 vs 0.110 ml kg x1 h x1 ) were not signi®cantly different. Conclusions Regular low dose VPA intake in humans over a period of 3 weeks appears to be associated with a small induction of its metabolism by the b-oxidation pathway, but not by glucuronidation or 4-hydroxylation.
The objective of this communication is to describe the changes in the metabolic profile of valproic acid (VPA) from early to late childhood and adolescence. A cross-sectional study of 12 children and adolescents attending a neurological outpatients department, who were medicated with VPA, was carried out. The proportions of daily dose excreted as VPA-glucuronide, 3-oxo-VPA and 4-OH-VPA were calculated by relating 24-h recovery of these metabolites from urine to daily VPA dose. VPA, 3-oxo-VPA and 2-en-valproic acid (2-en-VPA) were measured in trough serum samples. VPA and its metabolites were measured using a capillary gas chromatograpy method. The proportion of daily dose recovered as VPA-glucuronide in children 10 years and younger was smaller than in older children (p<0.05). There were no differences between age groups in the recovery of the other measured metabolites. Lamotrigine (LTG) comedication was also associated with a higher proportion of VPA dose recovered as glucuronide (p<0.01). LTG comedication had a stronger association with a higher proportion of dose being recovered as VPA-glucuronide on multivariate analysis than did the age group (p=0.001 versus p<0.05). In conclusion, older children and adolescents, when compared with younger children, and those comedicated with LTG excrete a higher proportion of VPA dose as VPA-glucuronide.
The reasons for the intra- and interindividual variability in the clearance of valproic acid (VPA) have not been completely characterized. The aim of this study was to examine day-night changes in the clearance of 3-oxovalproate (3-oxo-VPA), 4-hydroxy-valproate (4-OH-VPA), and valproic acid glucuronides under steady state. Six diurnally active healthy male volunteers ingested 200 mg sodium valproate 12 hourly, at 0800 and 2000, for 28 days. On the last study day, two sequential 12-h urine samples were collected commencing at 2000 the evening before. Plasma samples were obtained at the end of each collection. Following alkaline hydrolysis, urine was analyzed for concentrations of VPA, 3-oxo-VPA, and 4-OH-VPA. A separate aliquot was assayed for creatinine (CR). The plasma concentrations of VPA, 3-oxo-VPA, 2-en-VPA, and CR were determined. The analysis of VPA and its metabolites was performed by GC-MS. There was an increase in plasma 3-oxo-VPA concentration at 0800, sampling as compared to 2000 sampling (p < .05). The urinary excretion of 3-oxo-VPA and VPA glucuronides were decreased between 2000 and 0800, compared to between 0800, and 2000, by 40% and 50% respectively (p < .05). These results indicate a nocturnal decrease in renal clearance of 3-oxo-VPA rather than a decrease in the beta-oxidation of VPA at night. These differences were not explained by differences between the sampling periods in CR excretion. These results indicate the importance of collecting samples of 24-h duration when studying metabolic profiles of VPA.
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