View clinical trials related to Renal Insufficiency.
Filter by:Can the investigators create an effective way to improve adherence to immunosuppressant medication and reduce rejection, graft loss, and death in adolescents and young adults who have undergone kidney or liver transplantation? The investigators' mobile technology intervention uses real-time electronic pillbox-assessed dose timing and text message prompts to address antirejection medication nonadherence when nonadherence is detected.
The goal of this research is to study the associations of genetic variants of gout and kidney failure, which are very common in the Melanesian population in New Caledonia
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.
This is a randomized, double blind, multicenter study following surgery with extracorporeal circulation to compare blood pressure optimization with vasopressin versus noradrenaline. It is planned to include 840 patients in order to have 420 patients with vasoplegic syndrome. The primary objective of this study is to determine whether the use of vasopressin to maintain blood pressure following cardiac surgery decreases the number of patients with acute renal failure and/or death compared with the usual use of norepinephrine. Participation in the study involves daily follow-up at D1, D2, and D7 of the onset of the syndrome and then follow-up at D30 and D90.
The planned intervention, entitled, Supporting Self-Management of Health Behaviors to Optimize Health (SMART-HABITS for Health), aims to provide support for patients with chronic kidney disease, hypertension and diabetes by providing text messages delivered as motivational reminders and support to encourage blood pressure self-monitoring through goal setting, customized task prompts via text message and feedback, leveraging social connections, and use of a gamification design.
Calcineurin inhibitors (CNI) remain the standard treatment in renal transplantation to prevent rejection. Currently the main limitation of kidney transplantation is the occurrence of chronic graft dysfunction due to the CNI nephrotoxicity. Thus, strategies to minimize or stop CNI have been developed as belatacept, a fusion protein (CTLA4-Ig) blocking the ligand of the main CD28 costimulatory molecule. In the original phase III trial, used de novo in combination with MMF (without CNI) belatacept allowed to obtain a better renal function as soon as 1 year and a better graft and patient survival after 7 years. Despite these excellent results, belatacept has not become the gold standard due to a higher incidence of early rejection. In addition, belatacept is not covered by the french social security policy, because benefits are considered insufficient with respect to the cost. Patients with poor early graft function are a preferred indication of belatacept. It is then used instead of CNI at 3 months post-transplant allowing to improve kidney function without over-risk of rejection. Currently after conversion, belatacept is maintained indefinitely due to the supposed CNI chronic nephrotoxicity. However this one is more and more questionable. Thus, the investigators assume that in patients with poor function at 3 months posttransplantation the belatacept's benefit could be obtained by a transient replacement of CNI by belatacept from 3 to 12 months post-transplantation. It is the feasibility of this strategy and its medico-economic impact that the investigators wish to study.
Acute kidney injury (AKI) or renal impairment is an established complication of cardiac surgery occurring with an incidence up to 30%, To date, no agent has conferred renal protection. Considerable interest has developed in the potential for Nacetylcysteine (NAC) to exert a renoprotective effect in patients undergoing cardiac surgery. Due to the beneficial effect of NAC on contrast nephropathy and its reported anti-inflammatory effects.
The study is a single-center, open, single-dose, self-controlled clinical trial. It is planned to enroll 24-30 subjects. Subjects will take the SHR6390 on Day1.
The circumstances for setting up dialysis in the neonatal period are multiple: congenital anomaly of the kidney and urinary tract (CAKUT), secondary acute renal failure whose etiologies are multiple (sepsis, hypovolemia, respiratory distress syndrome, neonatal asphyxia, Arterial or venous renal thrombosis, nephrotoxic drugs, etc.), metabolic diseases (mainly hyperammonemia and leucinosis) and post-operative management of heart disease: analysis of the characteristics of the patients in our study and comparison with existing epidemiological data in the literature. The decision to set up dialysis in a newborn whose recovery of renal function is uncertain or in a context of acute multi-visceral failure is not always obvious and must be discussed carefully. multidisciplinary in connection with neonatologists, resuscitators and nephrologists as well as families with the consideration of the future quality of life of the child.
Patients with chronic kidney disease receiving hemodialysis (HD) suffer from higher rates of brain vascular disease and decreased cognition than the general population. One way to assess brain vascular health and response to HD stress, is to test how the brain's blood flow responds to carbon dioxide (CO2) to measure Cerebrovascular Reactivity (CVR). In this study, the investigators will compare the magnitude and speed of the brain's blood flow response to a step-wise change in CO2 with hemodynamic, dialysis, and cognitive parameters. The goal of the study is to establish therapeutic targets that can be altered during the dialysis procedure to protect the brain from HD stress.