View clinical trials related to Renal Insufficiency.
Filter by:Healthy kidneys clean your blood by removing excess fluid, minerals, and wastes. When your kidneys fail, harmful wastes build up in your body and your body may retain excess fluid. When this happens, you need treatment to replace the work of your failed kidneys. This may be with a dialysis machine using haemodialysis or with fluid in the abdomen or peritoneal dialysis. In peritoneal dialysis, a tube called a catheter is put in the abdomen wall and used to fill your abdomen with a cleansing liquid called dialysis solution. The walls of your abdominal cavity are lined with a membrane called the peritoneum, which allows waste products and extra fluid to pass from your blood into the dialysis solution. These wastes and fluid are removed from the body when the dialysis fluid is drained and replaced with a fresh solution. The tubes or catheters used to exchange the fluid are currently positioned using a general anaesthetic (with the patient awake) and an operation with a cut under the belly button. Newer techniques using local anaesthetic (with the patient awake and the area numbed) and requiring only a small cut in the skin have been used. No one has ever directly compared the two techniques. The investigators aim is to perform a direct comparison between the two techniques to look at the complications and time required for surgery and length of hospital stay required. The investigators will also look at the patients satisfaction and pain scores with each technique to help gather evidence as to which is likely to be the best technique to use from now on.
The prevalence of acute renal failure in intensive care is estimated at between 5 and 20% depending on diagnostic criteria retained. And half of patients require the use of hemodialysis. Continuous veno-venous hemodiafiltration (CVVHDF) is one of the hemodialysis technique widely used in intensive care unit. The CVVHDF is performed at the bedside, by a mobile generator with a semi permeable membrane, a blood circuit, a dialysate circuit and a feedback circuit. The implementation of a CVVHDF requires the use of large amounts of biological liquid essential to enable the purification of blood during its passage through the artificial kidney. The objective of this study is to assess time nursing work and the costs of each method.
A prospective, randomized, open-label, stratified, controlled clinical trial to evaluate whether long term furosemide therapy (1 year) would preserve urine volume and/or residual renal function (RRF) and improve fluid state in continuous ambulatory peritoneal dialysis (CAPD) patients.
This is an open-label, single-arm, baseline-controlled, multicenter efficacy and safety switch study involving 500 CKD subjects suffering from anemia and treated previously with a stable dose of ESA s.c. Correction of anemia will be maintained by s.c. administration of HX575 in two frequencies (i.e. qw and q2w), in order to maintain an Hb target range of 10.0-12.0 g/dL.
The purpose of this study is to find new blood and urine tests that detect acute kidney injury earlier than our current blood tests in patients receiving a liver transplant.
Heart failure (HF) is a major public health problem, which affects about 5 million Americans.HF is when the heart muscle does not pump as much blood as the body needs. As a result of this,the body has difficulties in keeping an optimal fluid status. The fluid status of the body is regulated by both the heart and the kidneys. Due to the strong interaction between the heart and the kidneys, heart failure can result in a slight decreased kidney function as well. It is known that people who primarily suffer from chronic kidney disease (CKD) have a higher risk of developing arterial calcifications. Calcification of the arteries is caused by deposits of calcium within the walls of the blood vessels. Calcifications of the arteries may result in a loss of elasticity of the blood vessels. Recent research studies have shown that people with CKD have stiffer blood vessels which in these people, is associated with a higher chance of developing cardiovascular diseases. However, it is not known whether a decrease in kidney function in people with HF results in arterial calcification as well. In addition, it is not known whether this is also associated with a higher risk of developing cardiovascular diseases (diseases of the heart and blood vessels.) We are asking you to take part in this study because you have HF combined with some decrease in your kidney function. The purpose of this study is to see whether people with HF and a decrease in kidney function do have a higher chance of developing arterial calcifications. We will do this by comparing the results of the following; 1) several blood tests, 2) pictures taken of your heart by echocardiogram and computed tomography (CT) scan, and 3) measurements of the elasticity of your arteries. All of these tests are routinely used in clinical care. However, there have not been any research studies that have compared these results to see how they relate to arterial calcification in people with HF who have a decrease in kidney function. We also want to see whether people with HF and a decreased kidney function are at a higher risk of developing cardiovascular diseases. This study is being performed at Massachusetts General Hospital (MGH), in Boston Massachusetts. We expect to enroll a total of 150 subjects at MGH.
The purpose of this study is to perform a randomized, controlled clinical trial to investigate if the phosphate binder sevelamer can improve insulin resistance and glucose handling in patients receiving maintenance hemodialysis.
The objective of this study is to prospectively monitor the incidence of adverse drug reactions, specifically NSF during routine use of gadoversetamide in a large number of patients with moderate renal insufficiency (eGFR 30-59) and severe renal insufficiency or end-stage renal disease requiring dialysis (eGFR <30).
Impaired kidney function is associated with a poor outcome in patients with heart failure but it is not known of this is the case for patients who have been born with their heart condition (congenital heart disease). This study aims to investigate how frequently patients with congenital heart disease have kidney disease and whither this does have an impact on their outcome. The hypothesis is that kidney dysfunction will be common in these patients and may have an impact on long-term health and life-expectancy.
Study of the kinetics of uremic toxins in the ICU patients with acute renal failure, in order to optimize the dialysis dose: patients with sepsis/multi-organ failure. The sampling of blood and dialysate will be done during dialyses with different durations (4, 6 and 8h)