View clinical trials related to Renal Replacement Therapy.
Filter by:The purpose of this study is to test the effectiveness of a membrane gas exchange device in the venovenous circulation of a continuous renal replacement therapy for the purpose of CO2 elimination and pH compensation. Thus, the primary endpoint is the modification of the PaCO2 and/or the ventilator settings (tidal volume VT and plateau pressure Pplat).
A prospective international, multi-centre, prevalence study on the epidemiology of the use of renal replacement therapy for ICU patients who have acute kidney injury and chronic end stage kidney disease.
This is a 2-year, randomized, multicenter, open-label, 2-arm study evaluating the graft function of everolimus and reduced CNI versus MPA and standard CNI in adult de novo renal transplant recipients.
Two recent randomized controlled trials (RCT) on online hemodiafiltration (HDF) did not show a treatment effect on patient survival when compared with low‐ or high‐flux hemodialysis. Interestingly, post‐hoc (on treatment) analyses from both trials unequivocally showed reduced mortality in the patient group achieving the highest convection volumes. Moreover, a third trial recently found a significant 30% decrease in mortality when HDF was applied with a mean convection volume of 23.7 L per session, which was somewhat higher than the average volumes reached in the aforementioned trials. Altogether, these findings support the concept of a dose-response effect, in which a minimally delivered convection volume is required in order to show a survival benefit. Hence, the question arises whether high convection volumes are achievable in the majority of patients. The aim of this study is thus to test the following hypothesis: high‐volume (>22 liters per treatment) post-dilution on‐line hemodiafiltration (HDF) is achievable in the majority (>75%) of patients treated with chronic intermittent hemodialysis. This will be done through the use of a dedicated standardized protocol, in which the three most important determinants of convection volume will be successively optimized: treatment time, blood flow rate and filtration fraction.
Acute kidney injury (AKI) is a common and serious problem in critically ill patients, and is known to be an independent risk factor for mortality. Among the various etiologies of AKI, sepsis or septic shock is the most frequent contributing factor especially in an intensive care unit setting. Also, the mortality of septic AKI in these patients still remains extremely high despite recent marked therapeutic advance. Given the physiologic superiority of continuous renal replacement therapy (CRRT) on uremia and volume control, it has become the modality of choice in critically ill patients with AKI. In addition, CRRT can theoretically provide immunohomeostasis through the convective and adsorptive removal of various immune mediators. Although the pathophysiology of septic AKI remains elusive, it has become increasingly recognized that many pro- and anti-inflammatory mediators, such as TNF, IL-6, IL-8 and IL-10, play an important role in this process. Therefore, it has been speculated that the reduction of cytokines by increasing CRRT dose in patients with septic AKI may reduce mortality risk. Even though recent two large scale randomized controlled trials, ATN and RENAL study, have failed to show the difference in survival rate between the clearance of 20~25 ml/kg/hr and 35~40 ml/kg/hr, none of these studies were designed to elucidate the survival benefit of high intensity CRRT in patients with septic AKI. Moreover, the optimal target CRRT dose in these patients is not well established and may be even higher than 35~40 ml/kg/hr in terms of septic AKI. Indeed, recent several uncontrolled trial have shown the survival benefit of high intensity CRRT in these patients. To further explore the effects of high dose CRRT on survival of critically ill patients with septic AKI, the investigators will conduct a multicenter prospective randomized controlled open-label trial which compares the difference in survival rate between 1:1 balanced pre-dilution CVVHDF at 80 vs. 40 mL/Kg/hr for initial 72hrs after the start of CRRT. The primary end-point of this study is the effect of high volume pre-dilution CVVHDF on 28-day survival rate. The secondary end-point is 60- and 90-day mortality, ICU and in-hospital mortality, duration of CRRT and renal replacement therapy, duration of mechanical ventilation, cytokine removal rate at 12h after the initiation of CRRT, and changes in SOFA and APACHE II score at 72h after the initiation of CRRT. This is a superiority trial which aims to demonstrate a reduction of 20% or more in mortality rate. For this purpose, at least 109 subjects (a total of 218) would be required for each group if type I error rate is 5% and type II error is 20% given 25% of drop-out rate during the study period. Block randomization will be used by means of a dedicated website. There are still conflicting data on the optimal target dose of CRRT in patients with septic AKI. Our study will address this issue to answer the unresolved question on the effect of high dose CRRT.
Few studies analyzed the referral time to nephrologists and its impact on the patient outcome in a large cohort. The investigators described the incidence and determined the outcome with respect to renal function recovery, renal replacement therapy (RRT) requirement and in-hospital mortality of Hospital Acquired Acute Kidney Injury (HA-AKI) without nephrology referral (nrHA-AKI) and late referred HA-AKI patients to nephrologists (lrHA-AKI) compared with early referral patients (erHA-AKI). The patients included were admitted to the tertiary care academic center of Lausanne (Switzerland) between 2004 and 2008, in the medical and surgical services and in the intensive care unit (ICU).
Patients whose kidneys have failed need to receive dialysis treatment, most commonly with a dialysis machine. In order to be connected to the machine an operation is often performed to join an artery to a vein in the arm. This forms what is known as an arteriovenous fistula. The fistula causes an increase in the flow of blood through the vein and the vein reacts to this by becoming bigger and thicker, making it easier to connect the patient to the machine. The success rate for the operation is relatively low and only approximately 65 from every 100 operations is still working after a year. It is thought that one factor that may cause problems with the fistula is the ability of the vein to stretch in response to increased blood flow. Previous research has shown that veins in kidney failure patients look different to those of people whose kidneys are working when viewed under a microscope. The investigators aim to study the structure of the vein that is used in making fistulas with a microscope and also to test it in an engineering laboratory to see how much it will stretch. The investigators hope that gaining information about the structure of the vein and its ability to stretch will help determine what it is about the vein that affects how well it works as part of a fistula. This information may help surgeons select the best possible vein in a given patient to give the best chance of a working fistula in the future.
Adequacy of solute clearance makes a profound impact on clinical outcome in maintenance hemodialysis patients. Thus far, guidelines on the target of solute clearance (Kt/V or URR) are based on patients with three dialysis sessions per week. However, quite a few patients have their dialysis sessions twice per week in China. The dialysis target of solute clearance in this population remains to be elucidated. The aim of this study was to explore the optimum target solute clearance (Kt/V or URR) in maintenance hemodialysis patients with two dialysis sessions per week. Two groups of hemodialysis patients with different Kt/V (1.2 ≤ Kt/V < 1.7 versus Kt/V ≥ 1.7) will be followed until 96 weeks in this prospective, randomized, multi-center, interventional study.
This study will assess clinical outcomes of extended weekly hours of haemodialysis (>= 24 hours per week) compared with standard hours of haemodialysis (<=18 hours/week) in people with ESKD.
The purpose of this study is to determine if the incidence of acute renal failure (ARF) in high risk patients who undergo coronary artery bypass grafting (CABG) is reduced by treating patients in the perioperative period with intravenous (IV) sodium bicarbonate. Patients will be randomized in a 50:50 allocation to receive either IV sodium bicarbonate or IV normal saline. The volume of fluid given in each arm of the study is equal. All other interventions in those patients will be according to standard cardiothoracic anesthesia protocol at our institution.