View clinical trials related to Renal Insufficiency.
Filter by:This is a single center study characterizing the experience of administration of 8 weeks of pan-genotypic DAA therapy in kidney transplantation to prevent the transmission of hepatitis C virus infection from an HCV-positive donor kidney to an HCV-negative recipient.
The purpose of this research study is to show the blood pressure lowering effect of aprocitentan, a new drug, when added to the background antihypertensive therapy in patients with uncontrolled blood pressure and chronic kidney disease (CKD) stage 3 or 4. Participation in the research study will last up to 21 weeks (about 5 months).
To investigate whether increasing water intake has renal protective effect on PA patients after surgical treatment.
Hepatorenal syndrome (HRS) is a disease in which patients with cirrhosis (end stage liver failure) develop secondary kidney injury and failure. The current treatment available in the United States is a combination of octreotide and midodrine, which are meant to decrease the release of those hormones and raise the blood pressure, respectively, which would increase blood flow to the kidneys. Angiotensin 2 (Ang2) is a new vasopressor drug that was approved by the FDA in December 2017 for patients with low blood pressure and has been shown to have similar effects to octreotide and midodrine. This study will investigate whether Ang2 reverses HRS among patients admitted to the intensive care unit (ICU) at Ronald Reagan Medical Center. Our study population will be patients with HRS who are already or will be admitted to the ICU. HRS will be defined by new internationally accepted guidelines published by the International Club of Ascites. All patients who are consented will undergo an Ang2 response trial, where low-dose Ang2 will be administered for 4 hours to see how the patients respond. This will help us characterize the nature of the patients' kidney failure for later analysis. Patients will then be randomized into the control group or the study group. Patients in the control group will receive octreotide (a subcutaneous injection) and midodrine (an oral drug). Patients in the study group will continue receiving intravenous infusion of Ang2. Patients in both groups will also receive albumin, a protein found commonly in human blood. Treatment will continue in both groups for four days, until complete reversal of HRS, dialysis, or death. Our primary outcome will be rate of reversal of HRS, defined as improvement in kidney function.
The evolution of chronic kidney disease (CKD) causes a systemic upheaval on the body and a deep fatigue is very often described by patients (50-70% of the patients) even before the start of dialysis (pre-dialysis). This fatigue has many origins, and one of them probably stems from a deterioration of neuromuscular abilities. Very few studies have examined the physiological aspects of neuromuscular fatigue in pre-dialysis patients, and shedding light on potential deficits at this level would allow safe and efficient implementation of adapted physical activity programs. Our study aims to characterize the pathophysiology of neuromuscular capabilities in chronic advanced renal failure in pre-dialysis patients.
Firstly, this study aims to understand how cardiac fibrosis mediated by inflammatory microvascular disease evolves during advanced chronic kidney disease and end stage renal failure and importantly how this changes with commencement on renal replacement therapy (haemodialysis and peritoneal dialysis) using sequential cardiac MRI imaging. This method of imaging is non-invasive, provides significantly more data than echocardiography, is reproducible and accurate, has been validated in numerous studies and does not involve exposure to ionising radiation. Secondly, this study aims to examine the changes in monocyte subsets and biochemical profile in peripheral blood prior to, during and after commencement on renal replacement therapy. The investigators hypothesis would be that renal failure causes alteration in monocyte subset phenotype resulting in increased circulating inflammatory monocytes (human CD14high CD16high), initiating pro-inflammatory cytokine expression and thereby accelerating inflammatory cardiovascular disease and development of myocardial fibrosis.
Researchers are trying to determine which dialysis solution, low bicarbonate fluid (22 mmol/L) or high bicarbonate fluid (32 mmol/L), is better in subjects with acute kidney injury (acute kidney failure) and metabolic acidosis that are admitted to the intensive care unit and require continuous renal replacement therapy (also known as continuous dialysis).
This study evaluates the safety of iodinated contrast medium administered to liver transplant candidates with decreased renal function undergoing coronary CT angiography. Incidence of post-contrast acute kidney injury in liver transplant candidates with decreased renal function and normal renal function will be compared.
This is a proof of concept, single center study for the donation of HCV-positive kidney to HCV negative recipient patients, with preemptive, interventional treatment with 12 weeks of commercially available DAA therapy to prevent HCV transmission upon transplantation.
The purpose of the study is to determine whether lanabecestat can be safely prescribed in participants with kidney impairment without a dose adjustment. Participants will be on study for up to 6 weeks; this includes a 2-week screening and a follow-up about 10 days after final drug administration.