View clinical trials related to Uremic; Toxemia.
Filter by:Protein-bound uremic toxins (PBUTs) are important uremic toxins, represented by indoxyl sulfate (IS), derived from the fermentation of dietary proteins by gut bacteria. The purpose of this study was to study the changes of IS in maintenance hemodialysis patients, and to construct a metabolic kinetics model of IS clearance. The model was then used to estimate the clearance rate of indoxyl sulfate by hemoperage, and to verify the application value of the model. This study intends to collect a series of serum, dialysate and urine samples from maintenance hemodialysis patients receiving high-throughput dialysis or hemodialysis filtration, so as to clarify the variation rule of IS during various blood purification treatments. Furthermore, a three-compartment model of dialysis IS metabolism kinetics was constructed according to the IS clearance of dialysis and residual kidney, and the above model was verified internally and externally. Finally, the model's fit and predictive value were validated in a group of MHD patients treated with HP without residual kidney.
Acute kidney injury (AKI) is a frequent disease in conventional hospital departments and in intensive care units. It's associated with a high risk to develop chronic kidney disease (CKD), even after a single small AKI episode. It's also associated with an important morbi-mortality, particularly cardiovascular (CV). Some studies have already showed a link between AKI and CV risk but pathologic mechanisms implicated are still unknown. In AKI and CKD, numerous substances, called uremic toxins (UT) are accumulating in blood. In CKD, those toxins, and particularly Indoxyl sulfate (IS), are known to have cardiac and vascular deleterious consequences. However, in AKI, whether acute accumulation of UT may trigger CV complications is unknown. The purpose of this study is that during AKI, a high UT concentration, in particular IS, would be associated with early vascular and cardiac dysfunctions that can be characterized by the persistence of an accelerated pulse wave velocity (PWV). The main objective is to evaluate the correlation between UT concentrations (especially IS) and arterial stiffness (PWV measurement) at three months of an AKI episode in conventional hospital departments and in the intensive care unit of nephrology.
The majority of studies conducted on uremic toxins involve patients before end stage renal failure or dialysis patients. Only a few studies have focused on transplant patients. In addition, the relationship between serum concentrations of uremic toxins and immunosuppressive drug concentrations has never been studied to date. The investigator research hypothesis is that, due to the strong plasma protein binding of calcineurin inhibitors, an interaction with protein-bound uremic toxins could alter drug concentrations that explain difficulties in reaching therapeutic targets.
The primary goal of the study is to evaluate in patients on three times a week on-line HDF the efficacy, in terms of toxin removal and modulation of the inflammatory state, of two different dialyzers: Helixone versus Asimmetric cellulose triacetate (ATA).
The development of acute kidney injury (AKI) during septic shock is frequent and is associated with a high mortality rate. The reason of this increased mortality despite the use of renal replacement therapy is still unknown. The deleterious effects of uremic toxins (solutes accumulating with the loss of kidney function) has risen for the last decade in chronic kidney disease patients. Among those solutes, indoxyl sulfate (IS) is associated with the development of cardiovascular complications and impairment of immune response. The role of uremic toxins and particularly IS in the prognostic of septic kidney injury is unknown. The investigators propose to analyze the relation between the serum concentration of IS and the mortality of patients hospitalized for a septic shock who developed an AKI.