In patients with end-stage renal disease treated with hemodialysis, blood pressure varies seasonally, with higher values in the winter and lower values in the summer.
The optimal dialysate calcium (Ca) content for hemodialysis has been classically fixed at 1.75 mM. However, this dialysate Ca concentration (dCa) with its positive intradialytic Ca balance combined with the use of CaCO3 as a phosphate binder may result in hypercalcemia. To prevent or treat hypercalcemia, a decrease in dCa has been proposed. In the present study both the acute and the long-term effects of lowering dCa were assessed. Additionally, given the results obtained after one year with low dCa the effectiveness of i.v. 1 alpha vitamin D3 in lowering PTH serum levels in two groups of patients dialyzed with different dCa was also studied. (a) Ca kinetics during hemodialysis (HD) and on line hemodiafiltration (HDF) were studied in a group of nine stable patients who were sequentially treated with 1.75, 1.5 and 1.25 mM dCa. Dialysate was the same but for the dCa which was lowered stepwise. Na, K, tCa, ionized Ca (iCa), proteins, phosphate and pH were measured from blood inlet and outlet and dialysate outlet at the start, one hour, two hours and after the treatments. At the same time weight, blood pressure and heart rate were recorded. The sieving of iCa was significantly different in HDF versus HD (F = 6.73; P < 0.01); intravenous infusion of 18 liters of filtered ultrapure dialysate compensated the Ca loss due to the convective component of HDF, as iCa was similar at the blood inlet in HD and HDF in the three dCa tested (F = 2.59; NS). Intradialytic iCa kinetics measured in the blood inlet were significantly different with different dCa (P < 0.001 for 1.75 mM vs. 1.5 mm and P < 0.001 for 1.5 mM vs. 1.25 mM). A significant increase in post-dialysis iCa was observed with dCa of 1.75 and 1.5 while no modification was observed with 1.25 mM dCa. (b) Regarding long-term effects of lowering dCa, seven of the nine patients acutely studied were followed for a one year period after changing from dCa = 1.5 to dCa = 1.25 mM. A control group of six patients was maintained with dCa = 1.5 for the same period of time and with the same treatment schedule but for dCa. Total Ca, phosphate and alkaline phosphatase were assessed monthly, and phosphate binders and oral vitamin D derivative doses were adapted accordingly. Intact PTH was determined quarterly. CaCO3 oral intake was more than doubled in the low dCa group. Total Ca, phosphate and ALP were similar in both groups over the assessed year.(ABSTRACT TRUNCATED AT 400 WORDS)
Permanent loss of the ultrafiltration (UF) capacity of the peritoneum has been observed with an increasing frequency among our patients treated by long-term intermittent (IPD) and/or continuous ambulatory peritoneal dialysis (CAPD).The analysis of various characteristics of our PD population (patients age, dialysis techniques, peritoneal infection rate and treatment duration) indicates that the incidence of this complication increases exponentially with the duration of PD, the loss of UF capacity being observed after a shorter period in CAPD than in IPD. These observations suggest that long-term irrigation of the peritoneal cavity leads to a progressive deterioration of the peritoneum resulting in its altered permeability with loss of the ability to ultrafiltrate; the cause of this abnormality is as yet unknown.
Although hemodiafiltration is purported to provide better cardiovascular stability for dialysis patients; other possible benefits of this therapy have not been well defined. We have compared treatment with hemodialysis (HD) and hemodiafiltration (HDF) in 20 stable patients over a period of 18 months. Dialysis parameters (dialysate composition and flow, duration, dialyzer) were the same in the two periods except for the added convection of HDF and a higher tolerated blood flow in HDF. Cardiovascular parameters were remarkably similar in the two treatment periods, indicating that stable patients do not benefit further from this therapy in terms of these factors. The clearance of urea was significantly improved with HDF, which was reflected in a higher Kt/V and lower TACurea. We observed a significant correlation between Kt/V and PRU in both HD and HDF modes. This correlation was linear and the regression line was similar in both modes. The clearance of beta 2-microglobulin was also significantly improved by HDF compared to HD. Thus the benefit of HDF in stable dialysis patients is the improved clearance of small molecules and beta 2-microglobulin without increasing dialysis time. Further clinical benefits due to the improved clearance may only become apparent with longer follow-up.
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