View clinical trials related to Kidney Failure, Chronic.
Filter by:The aim of this study is to learn about the safety of empagliflozin in dialysis patients as a preparation for a future large clinical trial. Empagliflozin has been approved by the Food and Drug Administration for the treatment of either type 2 diabetes, heart failure, or chronic kidney disease among patients not on dialysis. The use of empagliflozin has not been studied or approved among patients on dialysis for kidney failure because empagliflozin acts on the kidneys. However, recent experimental studies have indicated that empagliflozin may provide direct heart benefits. Some dialysis patients have substantial residual kidney function, which may be protected by empagliflozin. Participants will be given empagliflozin for three (3) months on top of the standard of care (usual medical care for participants' condition) and will be followed up until one (1) month after the last dose. The investigators will collect information about participants' general health, obtain blood, urine, and imaging studies, check home blood pressure, monitor home blood sugar levels, and ask health-related questions to assess the safety and potential benefits of empagliflozin over four (4) months, including one month before the three (3)-month empagliflozin treatment.
The purpose of this study is to find out if empagliflozin, a new diabetic medication that has been shown to be very effective in lowering the risk of heart failure, is safe and tolerated in dialysis patients. In the recent years, empagliflozin has become a major tool to prevent heart failure hospitalization and to reduce the risk for cardiovascular death in diabetic and non-diabetic patients. Although patients with severe chronic kidney disease and ESKD have very high risk of heart failure and cardiovascular death, they have been excluded from all of the previous studies. If this medication is found to be well tolerated and safe in dialysis patients through this study, future clinical studies can evaluate if this medication can also reduce the risk of heart failure and cardiovascular death in dialysis patients.
The goal of this clinical trial is to improve communication among clinicians, patients with memory problems, and their family members. We are testing a way to help clinicians have better conversations to address patients' goals for their healthcare. To do this, we created a simple, short guide called the "Jumpstart Guide." The goal of this research study is to show that using this kind of guide is possible and can be helpful for patients and their families. Patients' clinicians may receive a Jumpstart Guide before the patient's clinic visit. Researchers will compare patients whose clinician received a Jumpstart Guide to patients whose clinician did not receive a guide to see if more patients in the Jumpstart Guide group had conversations about the patient's goals for their healthcare. Patients and their family members will also be asked to complete surveys after the visit with their clinician.
Kidney failure is common in heart transplant recipients and is a major cause of morbidity and mortality. Sodium-glucose transporter 2 (SGLT2) inhibitors were developed as antidiabetics but were subsequently shown to reduce the incidence of adverse cardiovascular outcomes and protect renal function in non-diabetics as well as diabetics. However, SGLT2 inhibitors have not been tested in clinical trials in heart transplant recipients. The DAPARHT trial is designed to assess the effect of the SGLT2 inhibitor dapagliflozin to prevent deteriorating renal function in heart transplant recipients. Secondary objectives are to assess the impact of treatment on i) weight, ii) glucose homeostasis, iii) proteinuria, iv) the number of rejections, and (v) safety and tolerability. As exploratory outcomes, the investigators will assess the effect of treatment on renal outcomes, clinical events (death, myocardial infarction, cerebral stroke, cancer, and end-stage renal disease), cardiac function, quality of life, and new-onset diabetes.
The use of contrast media (CM) poses a risk of post-contrast acute kidney injury (PC-AKI), especially among patients chronic kidney disease (CKD). International guidelines recommend intravenous (IV) hydration with isotonic 0.9% NaCl for three-four hours pre-contrast and four-six hours post-contrast. Recent studies have proven that oral hydration or no hydration is non-inferior to IV hydration in patients with mild to moderate CKD (eGFR 30-60 mL/min/1.73 m2). However, no randomized controlled trials have evaluated alternative hydration methods against the guideline-recommended hydration protocol for the prevention of PC-AKI in high-risk patients with severe CKD (eGFR < 30 mL/min/1.73 m2). Thus, the main focus of this trial is to evaluate IV hydration vs. oral hydration for their efficacy to prevent of PC-AKI in patients with severe CKD, who are scheduled for an elective contrast-enhanced CT-scan (CECT) with IV contrast-administration. Our research hypotheses consist of the following: 1. Oral hydration with bottled tap water is non-inferior to IV-hydration with isotonic 0.9% NaCl as renal prophylaxis to prevent PC-AKI in patients with severe CKD referred for an elective IV CECT. 2. NGAL and cfDNA are early and precise plasma and urinary biomarkers of PC-AKI with excellent diagnostic and prognostic accuracy for PC-AKI, dialysis, renal adverse events, hospitalization, progression in CKD-symptoms, and all-cause mortality.
The prevalence of autonomic nervous system (ANS) dysfunction in patients with end-stage kidney disease (ESKD) is considered to be increased. The uraemic environment, as well as the high incidence of comorbid conditions affecting the ANS function (e.g. diabetes mellitus, autoimmune and degenerative neurological diseases), have been proposed to cause important alterations in ANS function. The vast majority of evidence on the prevalence of ANS dysfunction in ESKD patients is derived from small studies elaborating simple methodology. Noteworthy, with the exception of a study in 27 hemodialysis patients which assessed ANS function before and after dialysis in relation to left ventricular filling pressures, and a 2005 Dutch study in 21 patients whether or not they had hypotension during dialysis, no other study used advanced methods to analyze heart rate or blood pressure variability from beat-to-beat recordings, such as this study. In addition, there is no study so far investigating possible changes in the ANS function per dialysis session. Finally, to the best of our knowledge, this is the first work evaluating possible differences in ANS function in hemodialysis compared with peritoneal dialysis individuals.
To verify the efficacy of recombinant erythropoiesis stimulating protein injection (CHO cell) in hemodialysis patients with chronic renal failure anemia maintenance treatment is not inferior to yibio.
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.
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).