ABSTRACT
Introduction and aim of the study. The centralized preparation and distribution system of acidic concentrate represents a true innovation in hemodialysis, when compared to acid bags, in terms of convenience and eco-sustainability. The aim of this study is to compare the use of traditional acid bags with the centralized distribution system of acidic concentrate, with particular attention to differences in terms of eco-sustainability and convenience. Methods. At the Nephrology Dialysis and Renal Transplantation Unit of the University Hospital of Modena was installed the Granumix system® (Fresenius Medical Care, Bad Homburg, Germany). Data collected before the introduction of the Granumix® system (including the used acid bags, boxes and pallets used for their packaging, liters of acid solution used and kilograms of waste generated from wood, plastic, cardboard and residual acid solution) were compared with those collected after the implementation of the Granumix® system. Factors such as material consumption, volume of waste generated, unused and wasted products, time required for dialysis session preparation and nurses' satisfaction were analyzed to document which system was more environmentally sustainable. Results. Data collected in 2019 at our Dialysis Center showed a consumption of 30,000 acid bags, which generated over 20,000 kg of waste from wood, plastic and cardboard, and approximately 12,000 liters of residual acid solution to be disposed of, with a handling weight by operators reaching nearly 160,000 kg. The use of the centralized distribution system of acidic concentrate resulted in a significant reduction in waste generated (2,642 kg vs 13,617 kg), residual acid solution to be disposed of (2,351 liters vs 12,100 liters) and weights handled by operators (71,522 kg vs 158,117 kg). Conclusions. The acidic concentrate appears to be better suited to the sustainability challenge that dialysis must faces today, particularly due to the significant increase in the number of patients, which leads to a higher number of treatments and, therefore, a growing demand for eco-sustainable products.
Subject(s)
Renal Dialysis , Humans , Italy , Acids , Hemodialysis Solutions , Conservation of Natural ResourcesABSTRACT
An increased oxidative stress is now considered one of the major risk factors in chronic renal failure (CRF) patients that may be exacerbated by dialysis. It has been postulated that this increased oxidative stress might cause an augmented red blood cell (RBC) membrane lipid peroxidation with the consequent alteration in membrane deformability. The aim of this study was to evaluate RBC susceptibility to an in vitro induced oxidative stress and RBC antioxidant potential in different groups of CRF patients undergoing different substitutive treatment modalities. Fifteen end-stage CRF patients were evaluated in conservative treatment, 23 hemodialysis (HD) patients, 15 continuous ambulatory peritoneal dialysis (CAPD) patients, 15 kidney transplanted patients, and 16 controls. Their RBCs were incubated with the oxidative stress-inducing agent tert-butylhydroperoxide both in the presence and in the absence of the catalase inhibitor sodium azide, and the level of malondialdehyde (MDA) (a product of lipid peroxidation), was measured at 0, 5, 10, 15, and 30 min of incubation. In addition, the RBC content of reduced glutathione (GSH) was measured by HPLC. As opposed to the controls, RBCs from end-stage CRF patients exhibited an increased sensitivity to oxidative stress induced in vitro, both in the absence and presence of a catalase inhibitor, as demonstrated by a significantly higher level of MDA production at all the incubation times (P < 0.05). Different substitutive treatments had different impacts on this phenomenon; CAPD and kidney transplantation were able to normalize this alteration while HD was not. GSH appeared to be related to the increase in RBC susceptibility to oxidative stress; its content being significantly elevated in end-stage CRF and HD patients as compared with CAPD and transplanted patients and controls (P < 0.05). No significant changes were observed in the RBC glutathione content during the HD session. The increase of GSH in RBCs of end-stage CRF and HD patients seems to indicate the existence of an adaptive mechanism under increased oxidative stress occurring in vivo. Unlike HD, the beneficial effect of CAPD on the anemia of dialysis patients might partly be due to a condition of lower oxidative stress that might in addition counterbalance the cardiovascular negative effects of dislipidemia of CAPD patients.
