Valproic acid (VPA) is used for epilepsy and bipolar disorder. It has near-complete bioavailability and is primarily metabolized by glucuronosyltransferases and mitochondrial oxidation. This case highlights a 79-year-old male with bipolar disorder on VPA therapy that started with flucloxacillin for Staphylococcus aureus bacteraemia and exhibited significantly reduced VPA serum levels. During hospitalization, flucloxacillin treatment correlated with a sharp decline of 75% in VPA total serum levels, a novel drug-drug interaction not previously reported. Nonadherence and absorption issues of VPA were ruled out, confirming flucloxacillin's role in reducing VPA levels. Because free-fraction serum levels of VPA remained within therapeutic range (5-25 mg/L) and our patient's bipolar disorder remained stable at 1000 mg twice daily, a dose increase was not necessary. Previous reports described cytochrome P450 enzyme induction as the mechanism of flucloxacillin lowering serum levels of immunosuppressants and antimycotics. Because only 10% of VPA is metabolized by cytochrome P450 enzymes, this is not plausible for this case. The proposed mechanism for the VPA-flucloxacillin drug-drug interaction is flucloxacillin as inducer of glucuronosyltransferase enzymes via the pregnane X receptor pathway, accelerating VPA metabolism. Because this case showed that free-fraction serum levels remained within therapeutic range, it underscores the need for free-fraction VPA monitoring in bipolar disorder and flucloxacillin therapy. When VPA is used for epilepsy, it is advised to consider alternative antibiotics to avoid this interaction.
Keywords: druginteractions; flucloxacillin; pharmacokinetics; prescribing; therapeuticdrug monitoring; valproicacid.
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