Oral Iron Absorption of Ferric Citrate Hydrate and Hepcidin-25 in Hemodialysis Patients: A Prospective, Multicenter, Observational Riona-Oral Iron Absorption Trial.

Oral ferric citrate hydrate (FCH) is effective for iron deficiencies in hemodialysis patients; however, how iron balance in the body affects iron absorption in the intestinal tract remains unclear. This prospective observational study (Riona-Oral Iron Absorption Trial, R-OIAT, UMIN 000031406) was conducted at 42 hemodialysis centers in Japan, wherein 268 hemodialysis patients without inflammation were enrolled and treated with a fixed amount of FCH for 6 months. We assessed the predictive value of hepcidin-25 for iron absorption and iron shift between ferritin (FTN) and red blood cells (RBCs) following FCH therapy. Serum iron changes at 2 h (ΔFe2h) after FCH ingestion were evaluated as iron absorption. The primary outcome was the quantitative delineation of iron variables with respect to ΔFe2h, and the secondary outcome was the description of the predictors of the body's iron balance. Generalized estimating equations (GEEs) were used to identify the determinants of iron absorption during each phase of FCH treatment. ΔFe2h increased when hepcidin-25 and TSAT decreased (-0.459, -0.643 to -0.276, p = 0.000; -0.648, -1.099 to -0.197, p = 0.005, respectively) in GEEs. FTN increased when RBCs decreased (-1.392, -1.749 to -1.035, p = 0.000) and hepcidin-25 increased (0.297, 0.239 to 0.355, p = 0.000). Limiting erythropoiesis to maintain hemoglobin levels induces RBC reduction in hemodialysis patients, resulting in increased hepcidin-25 and FTN levels. Hepcidin-25 production may prompt an iron shift from RBC iron to FTN iron, inhibiting iron absorption even with continued FCH intake.

Noninvasive indices of arterial stiffness in hemodialysis patients.

The purpose of this study was to evaluate the validity of brachial-ankle pulse wave velocity (baPWV) and the cardio-ankle vascular index (CAVI) as measures of arterial stiffness in hemodialysis (HD) patients. We studied 160 consecutively enrolled HD patients (mean age: 59+/-13 years; 91 male patients). We measured baPWV and CAVI using a VaSera VS-1000, maximum intima-media thickness (max IMT) of the carotid artery by ultrasonography and blood renal and lipid parameters. As a control, baPWV and CAVI were also measured in age- and gender-matched healthy volunteers. Both baPWV and CAVI were significantly higher in HD patients than in controls (baPWV: 1698+/-355 vs. 1454+/-263 cm s(-1), P<0.0001; CAVI: 9.3+/-1.4 vs. 8.9+/-1.2, P<0.01). BaPWV correlated positively with age (r=0.549, P<0.0001), systolic blood pressure (SBP) (r=0.510, P<0.0001), diastolic blood pressure (r=0.203, P<0.0001), pulse pressure (PP) (r=0.499, P<0.0001), Kt V(-1) (r=0.221, P<0.01), Brinkman index (r=0.186, P<0.05) and max IMT (r=0.285, P<0.001). CAVI also correlated positively with age (r=0.562, P<0.0001), SBP (r=0.395, P<0.0001), PP (r=0.490, P<0.0001), Kt V(-1) (r=0.216, P<0.01), Brinkman index (r=0.238, P<0.01) and max IMT (r=0.280, P<0.001). Multiple regression analysis demonstrated baPWV and CAVI correlated independently with age and SBP. Receiver operating characteristics (ROC) curve analysis demonstrated that baPWV and CAVI had similar power to predict increases in max IMT. We also measured baPWV and CAVI immediately before and after HD, and showed CAVI was influenced by changes in water volume. Both baPWV and CAVI are therefore useful indices of arterial stiffness in HD patients.

Effect of high fiber density ratio polysulfone dialyzer on protein removal.

BACKGROUND/AIMS: A dialyzer (APS-EX) with a higher hollow fiber density ratio was manufactured using the highest performance polysulfone hollow fiber from Asahi-Kasei Medical. METHODS: We compared the performance of this device in comparison with hemodialysis (HD; APS-S) and hemodiafiltration (HDF) conditions (APS-S, 10 l post-HDF) to evaluate its merit as an internal filtration-enhanced dialyzer. RESULTS: With low molecular weight proteins, APS-EX had a reduction ratio of 74.3% for beta(2)-microglobulin (beta(2)-MG), and 31.0% for alpha(1)-MG. APS-EX had a significant higher removal amount of alpha(1)-MG compared to APS-S (HDF). Significant differences were seen in albumin loss, 4.0 g for APS-EX, 3.0 g for APS-S (HDF), and 0.9 g for APS-S (HD). Using HD mode, APS-EX demonstrated a performance which was more than equivalent to approximately 10 l post-HDF. CONCLUSIONS: The results suggested the possibility that HD equivalent to HDF can be performed safely with the ultrapure dialysate when using APS-EX with internal filtration.