Short-term effects of roxadustat on serum copper and iron changes in a peritoneal dialysis patient

Abstract

Dysregulation in total body copper causes severe complications and excess copper can be toxic. Divalent metal transporter 1, duodenal cytochrome B, and copper transporter ATPase7A are included in the many intestinal genes transactivated by HlF-α. On July X, 2022 an 80-year-old female patient on peritoneal dialysis was prescribed roxadustat 100 mg, because darbepoetin was unable to increase hemoglobin level effectively. On the same day, icodextrin 1 L was initiated to mitigate edema. Laboratory data showed hemoglobin 9.1 g/dL, transferrin saturation 77%, copper 123 μg/dL, and iron 170 μg/dL before changing to roxadustat. The patient visited us 6 days after the change because of the appetite loss. Transferrin saturation and serum copper and iron levels increased to 90%, 170 and 203 μg/dL, respectively, which were decreased or normalized after discontinuing roxadustat and icodextrin, suggesting that even short-term roxadustat administration can influence copper levels as well as iron levels. Excess copper and iron levels during roxadustat treatment do not immediately equate with toxicity, but indicate a physiological compensation or transient imbalance of metabolism especially in patients treated with ferric citrate. Further investigation for the hypoxia-inducible factor-prolyl hydroxylase inhibitors effects on iron and copper metabolisms is needed. Determining the short-term effect of roxadustat on serum copper and iron in only this case is impossible. Therefore, further accumulation of similar cases is necessary to clarify the short-term effects of roxadustat on serum copper and iron.