Background: Sustained slow low efficiency daily diafiltration (SLEDD-f) is a conceptual and technical hybridization of continuous renal replacement therapy (CRRT) and intermittent hemodialysis (IHD). It is an increasingly used modality of renal replacement therapy for patients in intensive care unit (ICU) with acute or chornic renal failure. Vancomycin, a member of glycopeptides antibiotics, is commonly used in ICU patients for prevent or treat methicillin-resistant Staphylococcus aureas (MRSA) infection. Since the pore size of high-flux dialyzer membrane is much larger than vancomycin, post dialysis supplement dose may be required. Several studies have demonstrated that intermittent hemodilaysis with high-flux dialyzer membrane removed significant amount of vancomycin, and once weekly dose is not appropriate. However, until now, there is no relavent study on the effect of SLEDD-f on vancomycin pharmacokinetics. Therefore, the purpose of this study is to understand the pharmacokinetic of vancomycin in these patients and the amount of vancomycin removed during one course of 8-hr SLEDD-f, in order to determine an appropriate dose regimen for patients requiring SLEDD-f as renal replacement therapy. Patients and methods: Patients who used SLEDD-f as renal replacement therapy and also vancomycin for infection control or prevention were included. Vancomycin dose regimen was decided by ICU doctor or pharmacist. Serum concentration was measured after lodiang dose or the 4th doses. Vancomyicn infusion was started 15 hours before SLEDD-f start. Blood samples were drawn from arterial line at 0, 1, 2, 5, 9 hours after completion of vancomycin infusion, predialysis, 2, 4 hours after dialysis started, at the end of dialysis, 1, 2 and 3 hours after completion of dialysis. Serum vancomycin concentration was measured with fluorescence polarization immunoassay (FPIA). A high-flux helixone membrane (F60X, Fresenius) with surface area of 1.4 m2 was used for SLEDD-f. Blood flow was 200 mL/min, and dialysate flow was 300 mL/min. Ultrafiltration rate was determined by the doctor. Dialysis duration was 8 hours. Effluent (the combination of dialysate and ultrafiltrate) was collected every two hours to measure the amount of vancomycin removed during one course of SLEDD-f. Pharmacokinetic parameters were analyzed with WinNonlin professional version 4.1. Results and discussion: 17 patients were included into this study; 7 patients drop out for unstable hemodynamics (1), sign DNR (do not resuscitation) (1), renal function recovery (1), against advice discharge (1), withdraw from the study and uncomplete blood samples collection (2); only 9 males and 1 female were included for data analysis. They aged from 33-73 years, (mean±standard deviation: 55.7±12.6). The average body weight was 71.2±12.0 kg. 8 patients received SLEDD-f because of acute renal failure (ARF) and 4 for end-stage renal disease (ESRD). Vancomycin dose ranged from 500-1000 mg (mean±standard deviation: 8.7±2.8 mg/kg). Blood samples were obtained after loading dose for 1 patient and maintenance dose for 9 patients. During 8 hours of SLEDD-f, 455.7±90.7 mg of vancomycin was removed, accounted for about 78.0±18.1% (33.2-96.1%) of vancomycin dose infused. Serum concentraiton decreased by 57.5±14.9% after 8 hour of SLEDD-f, and taking into consideration of the post-dialysis rebound, the concentration decreased by 47.2±12.2%. Time of rebound ranged between 1-3 hours, and the percentage of rebond ranged from 4.6-28.8% of post dialysis concentraiton. Serum concentraiotn before SLEDD-f started was 16.5±4.2 mg/L, and concentration at the end of SLEDD-f was 6.9±2.5 mg/L, lower than the therapeutic level defined in this study (> 8 mg/L). The pharmacokinetic parameters before SLEDD-f started and during SLEDD- f were quite different: elimination rate constatnt (k) before and during dialysis, 0.01 ± 0.01 vs. 0.11 ± 0.06 hr-1, half-life (t1/2), 583.8± 1037.8 (43.0-3465.0) vs. 7.7 ± 3.0 (2.9-11.5) hr. Total clearance (CLT) before dialysis was 0.05± 0.07(0.00-0.22) mL/min/kg. Dialysis clearance (dialysance, CLD) was 1.5± 0.4 (0.8-2.2) mL/min/kg. In vitro experiment showed that during 8 hour of study, the absolute amount of vancomyicn adsorbed on the dialyzer membrane was minimal, so it can be ignored in clinical practice. Conclusion: Significant amount of vancomycin is removed during SLEDD-f, thus, post dialysis supplement dose is recommended. For patients requiring SLEDD-f as renal replacement therapy, a 15-20 mg/kg loading dose, followed by a 10-12 mg/kg maintenance dose given at the end of each dialysis is an acceptable dose regimen.