Renal injury from valproic acid: case report and literature review.

A child with developmental delay and epilepsy developed glucosuria approximately 16 months after starting valproic acid therapy. Laboratory evaluation revealed global defects in proximal tubule function consistent with the De Toni-Debré-Fanconi syndrome. Discontinuation of valproate led to complete recovery 5 months later. Review of previously reported cases indicates that this complication is unique to children and reversible when the medication is discontinued.

Comparative toxicity of ifosfamide metabolites and protective effect of mesna and amifostine in cultured renal tubule cells.

Renal injury is a common side effect of the chemotherapeutic agent ifosfamide. Current evidence suggests that the ifosfamide metabolite chloroacetaldehyde contributes to this nephrotoxicity. The present study examined the effects of chloroacetaldehyde and acrolein, another ifosfamide metabolite, on rabbit proximal renal tubule cells in primary culture. The ability of the uroprotectant medications sodium 2-mercaptoethanesulfonate (mesna) and amifostine to prevent chloroacetaldehyde- and acrolein-induced renal cell injury was also assessed. Chloroacetaldehyde and acrolein (25-200 M) produced dose-dependent declines in neutral red dye uptake, glucose transport and glutathione content. Chloroacetaldehyde was a more potent toxin than acrolein. Pretreatment of cells with the glutathione-depleting agent buthionine sulfoximine enhanced the toxicity of both chloroacetaldehyde and acrolein while co-administration of mesna or amifostine prevented metabolite toxicity. These results support the hypothesis that chloroacetaldehyde is responsible for ifosfamide-induced nephrotoxicity. The protective effect of mesna and amifostine in vitro contrasts with clinical experience showing that these medications do not eliminate ifosfamide nephrotoxicity.