#6348 HFR USING A HIGH-FLUX DIALYZER (SUPRA-H) AS NEW EFFECTIVE ALTERNATIVE TO ON-LINE HEMODIAFILTRATION: A SINGLE SESSION ANALYSIS

Abstract

Abstract Background and Aims Hemodiafiltration with regeneration of the ultrafiltrate (HFR) is a highly biocompatible dialysis technique that combines convection, diffusion, and adsorption. SUPRA-H is a new HFR system which uses a high-flux dialyzer in the diffusive stage to improve large uremic toxin removal. The aim of our study was to compare the toxin removal of the SUPRA-H system with high-volume online-hemodiafiltration (OL-HDF). Method In an open, randomized, cross-over, single-center, controlled study, 16 adult chronic hemodialysis patients were treated with SUPRA-H or OL-HDF. Hemodialysis sessions were delivered with Flexya dialysis monitor (Medtronic) in the middle-week session, lasting four hours. OL-HDF session was performed in post-dilution mode with the same high-flux dialyzer (Phylter HF17G, Medtronic) as that used in the diffusive stage of the SUPRA-H system. All other dialysis parameters were kept constant in both study arms. The reduction rate (RR) of urea, creatinine, phosphate, β2-microglobulin (β2mglob), kappa (κFLC) and lambda (λFLC) free light chains, interleukin-6 (IL-6) p-Cresyl sulfate, indoxyl sulfate and albumin, was intraindividually compared for the two dialysis types with linear mixed models. Results Whereas urea RR was significantly lower, SUPRA-H had significantly higher RR for κFLC (Median: 58.63%, IQR: 49.91-70.24) than those obtained with OL-HDF (Median: 51.97%, IQR: 37.12-62.71); p = 0.03). The RRs for the other large and protein-bound uremic toxins tended to be higher with the SUPRA-H system (Figure 1). There were no significant differences in the RRs for creatinine, phosphate, IL-6, and albumin. Conclusion The new HFR system SUPRA-H, appears to be a potential technologic step ahead in terms of improved large molecule removal for dialysis patients, and might contribute to a more adequate dialysis therapy.