Accuracy of glomerular filtration rate estimation equations in patients with hematopathy

Renal dysfunction is a common side-effect of chemotherapeutic agents in patients with hematopathy. Although broadly used, glomerular filtration rate (GFR) estimation equations were not fully validated in this specific population. Thus, this study was designed to further assess the accuracy of various GFR equations, including the newly 2012 CKD-EPI equations. Referring to 99m Tc-DTPA clearance method, three Scr-based (MDRD, Peking, and CKD-EPI Scr ), three Scys C-based (Steven 1, Steven 2, and CKD-EPI Scys C ), and three Scr-Scys C combination based (Ma, Steven 3, and CKD-EPI Scr-Scys C ) equations were included. Bias, P 30 , and misclassification rate were applied to compare the applicability of the selected equations. A total of 180 Chinese hematological patients were enrolled. Mean bias, absolute mean bias, P 30 , misclassification rate and Bland-Altman plots of the CKD-EPI Scr-Scys C equation were 7.90 mL/minute/1.73 m 2 , 17.77 mL/minute/1.73 m 2 , 73.3%, 38% and 79.7 mL/minute/1.73 m 2 , respectively. CKD-EPI Scr-Scys C predicted the most precise eGFR both in lymphoma and leukemia subgroups. Additionally, CKD-EPI Scys C equation in the rGFR \begin{document}$\geqq $\end{document} 90 mL/minute/1.73 m 2 subgroup and Steven 2 equation in the rGFR 2 subgroup provided more accurate estimates in each subgroup. The CKD-EPI Scr-Scys C equation could be recommended to monitor kidney function in hematopathy patients. The accuracy of GFR equations may be closely related with GFR level and kidney function markers, but not the primary cause of hematopathy.