View clinical trials related to Renal Insufficiency.
Filter by:The study is designed as a prospective randomized, controlled, double-blinded phase II trial to examine the effect of the SGLT2 inhibitor dapagliflozin, in comparison with placebo on cardiovascular outcome parameters in kidney failure patients undergoing replacement therapy with hemodialysis. The primary endpoint is the change (∆) in left ventricular mass indexed to body surface area (LVMi) from baseline to 6 months measured by cardiac magnetic resonance imaging. Null and alternative hypotheses: H0: There is no difference in the ∆ Left Ventricular Mass indexed to BSA after six months of treatment, comparing patients having received the SGLT2-Inhibitor Dapagliflozin versus placebo. H1: There is a difference in the ∆ Left Ventricular Mass indexed to BSA comparing patients having received the SGLT2-Inhibitor Dapagliflozin versus placebo.
1. Observe the influence of entering hemodialysis treatment on the emotional and cognitive functions of ESRD patients. 2. Observe the influence of entering hemodialysis treatment on the brain structure imaging of ESRD patients. 3. Analyze and study the relevant clinical risk factors of the above-mentioned effects, and find targets for therapeutic intervention.
This is a multicentre, 2-part, single-blind, randomised, withdrawal, placebo-controlled study, that includes a 4-week patiromer treatment phase (Part A) followed by an 8-week randomised placebo-controlled withdrawal phase (Part B) and a 2-week follow-up period.
Chronic kidney disease (CKD) results from the progressive and irreversible destruction of the kidneys. As of December 31, 2018, there were 89,692 people in France undergoing replacement therapy, including 49,271 (55%) on dialysis and 40,421 (45%) with a functioning kidney transplant. The primary treatment modality is currently hemodialysis. It is known to activate the coagulation cascade and blood platelets, leading to thrombus formation and premature termination of the hemodialysis session. This loss of circuitry results in a decrease in session time leading to an insufficient dialysis dose and blood loss in patients who are already often anemic due to their chronic renal failure. To avoid this complication, current recommendations recommend the use of unfractionated heparin (UFH) or low molecular weight heparin (LMWH) during the hemodialysis session at the cost of an obligatory hemorrhagic risk due to the systemic administration of heparin. However, this risk of bleeding is already very high, due to platelet dysfunction, a direct consequence of uremic toxin impregnation in these patients. In addition, this hemodialysis population is frequently exposed to antiplatelet agents and anticoagulants (heparin or VKA), which aggravate the hemorrhagic risk inherent to renal pathology. In this context, bioactive membranes such as the HeprAN™ membrane, coated in heparin, have been developed to minimize or even eliminate the need for anticoagulation during sessions in chronic hemodialysis patients. Several studies with this membrane have demonstrated the absence of the need for additional heparin in populations with no particular bleeding risk and in populations at risk of bleeding: post-operative (HepZero study), patients on VKA. The HYDROLINK™ membrane offers the same anticoagulant prospects as the HeprAN™ membrane, but its mode of action involves the use of a copolymer with hydrophilic properties, making it possible to avoid the presence of heparin. This membrane would have an influence on platelet aggregation. It would also make it possible to avoid the risk of heparin-induced thrombocytopenia (HIT) by completely excluding heparin from the dialysis session
This is a two phase study. The first part will take place at the National Institute of Cardiology in Mexico, the second phase will be made in collaboration with the University of California San Diego. This is a non blind experimental study, 60 patients with different stages of CKD from the outpatient unit of the institute will be included. Each patient will receive a furosemide stress test of 1 mg/kg in non diuretic users and 1.5 mg/kg in diuretic users, in addition to an oral load of 5 grams of creatinine, as well as Iohexol to measure GFR. After the intervention blood and urine samples will be drawn at 10 minutes, 30 minutes, and every hour until the completion of the observation at 6 hours. Blood and urine will be analized to measure creatinine (blood and urine), then samples will be processed for measurement of furosemide (mass spectometry), indoxyl sulphate, p-cresol, hippurate, and uromoduline. The aim of this stiudy is to asses the differences between GFR and proximal tubule function.
The occurrence of renal failure during severe forms of COVID-19 is common (20-35% of patients treated in intensive care) and associated with an unfavorable short-term prognosis, but the medium-term renal outcome is not is not known. The aim of the study is to establish the frequency of chronic kidney failure after AKI KDIGO 2 and 3 occurring during severe COVID-19 in intensive care.
Due to organ shortage in kidney transplantation (KT) several strategies have been implemented in an attempt to increase donor pool utilization, including transplantation of extended criteria donor (ECD) allografts. While the transplantation of ECD organs saves patients from waiting-list dropout, these pre-damaged organs exhibit an increased susceptibility to further injury during organ storage and transplantation. Static cold storage (SCS) involves the transportation of procured donor kidneys on ice and has remained the gold standard for organ preservation for decades. SCS relies on hypothermia to reduce cellular metabolism and oxygen demand while achieving a prolonged preservation time of organs. Upon reperfusion, the reintroduction of oxygen to the ischemic kidney leads to a respiratory burst with massive production of mitochondrial reactive oxygen species and subsequent sterile inflammation of the entire organ. This ischemia-reperfusion injury (IRI) is a central predictor of graft and patient survival. Current clinical preservation strategies are unable to meet the challenges of ECD allograft transplantation and there is a great demand to optimize preservation techniques for such high risk ECD allografts. Currently, two main paradigms prevail in the clinical approach to kidney allograft machine perfusion (MP) in regard to optimized preservation techniques: while end-ischemic hypothermic (HMP) and hypothermic oxygenated MP (HOPE) may be seen as dynamic alternatives of the traditional organ preservation based on hypothermia-induced deceleration of metabolism could not proof a beneficial effect on delayed graft function or primary graft failure, the impact of normothermic perfusion (NMP) on ECD kidney allografts is still missing. NMP aims at re-equilibration of cellular metabolism by preserving the organ at physiological temperatures whilst ensuring sufficient oxygen and nutrient supply. The present trial was therefore designed to provide first level-II evidence for NMP in human KT after donation after brain death (DBD). In total, 194 human kidney grafts will be randomized to either 4 hours of NMP directly before implantation (intervention group; n = 97) or to SCS (control group; n = 97) prior to transplantation. The primary endpoint will be kidney function after 6 months (6-months eGFR). Secondary endpoints include kidney function after 3 and 12 months, incidence of delayed graft function (DGF), primary non-function (PNF) and surgical complications assessed by the comprehensive complication index (CCI).
The report of the Epidemiological and Information Network in Nephrology counted 44,978 hemodialysis patients in France in 2017, with more than 93% of them attending 3 sessions per week. This multi-weekly recourse to the healthcare system in the context of substitution treatment constantly reminds patients of their disease and has a strong impact on their quality of life. The 2011 REIN quality of life report showed that the quality of life of patients with renal failure, particularly dialysis patients, is impaired, particularly in its physical and mental components. A recent comparative study (van Sandwijk et al., 2019) comparing hemodialysis patients with hematological cancer patients under chemotherapy supports these data. The June 2013 report of the "Etats généraux du rein", an initiative of patient associations, called for the improvement of quality of life to be made a priority and for the possibility of using supportive care and complementary non-drug techniques to be proposed. Socio-aesthetic care, defined "as the practice of aesthetic care for people who are suffering or vulnerable", has found its place in hospitals as a complementary discipline to medical care, particularly in oncology. We believe that in order to improve the overall quality of life of hemodialysis patients, the quality of the experience of each session must be improved. In this perspective, the repetition of socio-aesthetic care performed during dialysis sessions could contribute to the overall improvement of the quality of life. A national survey (Saghatchian et al., 2018) on the impact of socio-aesthetic care in oncology confirms the positive perception of this care among cancer patients. Two studies carried out in hemodialysis (Bullen et al., 2018; Unal & Balci Akpinar, 2016) using complementary techniques, such as acupuncture, massage, or foot reflexology, highlight an impact on sleep, fatigue and quality of life. The experience of implementing socio-aesthetic care in our hemodialysis unit also leads us to believe that they positively influence the perception of the session, and therefore perhaps the quality of life measured with a validated scale, the KDQOL (Kidney Disease Quality Of Life). Our research therefore focuses on the effectiveness of social and aesthetic care during hemodialysis sessions to improve the quality of life of the hemodialysis patient.
The project is planed to explore the impact of LTBP4 and other matrix protein and potentially related biomarkers on renal outcomes, cardiac outcomes and all-cause mortality in patients with suspected acute coronary syndrome (ACS).
Chronic volume overload (VO) is a primary factor responsible for the excessive cardiovascular morbidity and mortality in hemodialysis (HD) patients. VO is caused in part by excessive fluid intake that is secondary to the consumption of a high salt diet. HD patients are often counselled to restrict their dietary sodium intake to help manage thirst and reduce their interdialytic weight gain (IDWG). However, data from recently published investigations demonstrate that dietary counseling alone may be ineffective. The objective of this randomized controlled trial is to determine if short-term feeding of low-sodium meals can "prime" changes in long-term nutrition behavior. It is hypothesized that feeding low-sodium meals for one month will significantly reduce IDWG and related outcomes, and continued dietary counseling and education support for 6 months will result in a sustained reduction in sodium intake upon patient resumption of meal responsibility. HD patients will be recruited and randomized to 2 groups: 1) Low-sodium meal feeding plus dietary counseling; or 2) a weight-list control group that will initially receive dietary counseling alone. IDWG will serve as the primary outcome with fluid volume overload, intradialytic hypotension, cramping, dietary sodium intake, sodium taste sensitivity and preference, and sodium self-efficacy evaluated at 1 and 6 months. This outcomes of this investigation will provide the first data on whether meal provision is an effective tool for dietary modeling and prolonged behavior change in HD patients.