Active clinical trials for "Acute Kidney Injury"

The aim of this study is to assess the effect of a diet prior to cardiac surgery on the common postoperative decline of renal function. Until now, there is no known drug or procedure to preserve the kidneys from this impairment. Patients with a known kidney disease are especially at risk. A potential beneficial effect of a diet prior to surgery has been shown in investigations in mammals, therefore this study will investigate if a preoperative diet in patients with known kidney disease and scheduled heart surgery can attenuate or prevent a postoperative loss of kidney function.

Background: Acute kidney injury (AKI) following coronary artery bypass graft (CABG) surgery is a major complication occurring in 1% to 53% of patients (depending on how it is defined) with the pooled rate of 18.2% and unfortunately 2.1% of them require renal replacement therapy. Cardiopulmonary bypass (CPB)-associated AKI increases mortality 2-4 fold regardless of AKI definition. It is also associated with increased risk of postoperative stroke, acute myocardial infarction, cardiac tamponade, heart failure, and lengthened intensive care unit and hospital stays. Even minor elevations of postoperative serum creatinine (SCr) have been associated with a significant increase in 30-day mortality, from a 3-fold increase risk for a small elevation of up to 0.5 mg/dL from baseline to an 18-fold increase risk of death with a SCr rise greater than 0.5 mg/dL. The pathogenesis of CPB-associated AKI is complicated and includes hemodynamic, inflammatory and other mechanisms that interact at a cellular level. To date, despite several clinical trials of pharmacologic interventions, none of them have demonstrated conclusively efficacy in the prevention of AKI after cardiac surgery. Remote ischemic preconditioning (RIPC) is a phenomenon in which brief ischemia of one organ or tissue, provokes a protective effect that can reduce the mass of infarction caused by vessel occlusion and reperfusion. In CABG surgery, cardiomyocyte injury caused by myocardial protection failure is predominantly responsible for adverse outcomes. RIPC was shown to reduce troponin release 24 h postoperatively in children undergoing corrective surgery for congenital heart disease. Other studies demonstrated that RIPC using brief ischemia and reperfusion of the upper limb reduces myocardial injury in adult patients undergoing CABG surgery. Due to the similarities between the mechanisms of ischemia-reperfusion injury produced by RIPC and those proposed for AKI after CPB, we decided to test the hypothesis that RIPC prevents AKI in patients undergoing CABG surgery. Methods: 180 patients who fulfill all inclusion and exclusion criteria will be divided into case and control groups (90 patients in the case and 90 patients in the control group). Patients in the treatment group will receive three sequential sphygmomanometer cuff inflations on their right upper arm after induction of anesthesia in the operating room. The cuff will be inflated by the OR nurse up to 200 mmHg for five minutes each occasion, with five minutes deflation in between inflations. Following this pre-conditioning phase, surgery will be started. The entire pre-conditioning phase will last 30 minutes. Patients in the control group will have the sphygmomanometer cuff placed on their right upper arm, but the cuff will not be inflated. Similar to patients in the treatment group, patients in the control group will undergo the same 30 minute delay before starting surgery. Complete blood count (CBC), SCr, liver function test (LFT), will be checked before surgery. After surgery, SCr will be checked daily. If AKI occurs, it will be managed and dialysis will be done if the patient requires it. All patients will undergo electrocardiogram and LFT after CABG surgery during hospital course.

Acute kidney injury (AKI) is common, serious and expensive.It is associated with significant mortality, morbidity and increased length of hospital stay.To improve clinical outcomes of AKI by early detection and timely referral to the renal,the investigators developed an electronic alert system which identifies all cases of AKI occurring in patients over 18 years.The system was also designed to collect data on AKI incidence one of the biggest tertiary hospital in China.

The objective of this study was to evaluate the role of curcuminoids in the prevention of CI-AKI in CKD patients.The result of the study was prophylactic administration with curcuminoids in addition to standard treatment reduce the incidence of CI-AKI CKD patients undergoing elective CAG.

This is a Phase 1b, single-center, dose-escalating study to evaluate the safety, tolerability, pharmacokinetics, and pharmacodynamic effect of RBT-9 in healthy volunteers and in subjects with Stage 3-4 CKD.

The mortality of acute renal failure (ARF) remains to be high (around 60-70%) despite manifold improvements in ICU care. At present, it is not clear if the method chosen for renal replacement therapy, i.e. intermittent haemodialysis (IHD) or continuous haemofiltration (CVVH), might impact on the outcome of these patients. For this purpose, a prospective randomised clinical study of the effect of continuous versus intermittent renal replacement therapy on the mortality and outcome of acute renal failure will be performed.

This is a pilot, explorative, study to test the feasibility and safety of systemic infusion of donor ex-vivo expanded Mesenchymal Stem Cells to repair the kidney and improve function in patients with solid organ cancers who develop acute renal failure after chemotherapy with cisplatin.

Deterioration of kidney renal function occurs in a minority of people due to contrast-required procedures. The purpose of this study is to compare two different interventions to reduce the risk of kidney injury after contrast medium exposition. We will perform a randomized clinical trial following a modification of a previously published protocol (Merten et al.JAMA 2004;291(19):2328-34). Patients will be randomly assigned to one of two groups of treatment. Group A will receive 1 cc/kg/hour of 0.9% saline infusion starting 12 hours before and continuing 12 hours after the procedure. Group B will receive 3 cc/kg of sodium bicarbonate solution for one hour prior to procedure, then drip rate will be decreased to 1 cc/kg/hour until 6 hours post procedure.

Patients with pre-existing kidney disease are at high risk of acute renal failure when exposed to radio-contrast dyes, for example during a cardiac angiogram. The investigators hypothesize that an infusion of saline + furosemide + mannitol will reduce rates of contrast-induced nephropathy when compared with saline infusion controls.

Hospitalized patients often suffer from an acute shutdown of kidney function secondary to infections, use of antibiotics, or use of intravenous contrast agents. This results in the accumulation of toxic substances and retention of fluid in the body. Dialysis techniques are often needed to manage these patients to remove the retained toxic substances and extra fluid and allow the kidney time to recover. The amount and duration of fluid accumulation have been associated with a higher risk of death and longer hospital stays. Correction of fluid overload with dialysis has been shown to be beneficial in improving the outcomes from these patients. Most patients are quite sick and often have low levels of a blood protein called albumin that makes them more prone to developing low blood pressure during dialysis and limits the ability of dialysis to remove solutes and fluid adequately. Often dialysis sessions are complicated by the development of low blood pressures and symptoms such as nausea, vomiting, and headaches that further compromises dialysis efficacy. In this study, the hypothesis that addition of intravenous albumin during the dialysis session will improve the ability to remove fluid and reduce the incidence of low blood pressure during dialysis thereby improving patient tolerance and the efficacy of the procedure will be tested. Patients with acute kidney failure or end-stage Renal Disease who need dialysis for fluid removal will be allocated to receive albumin or saline as intravenous fluids during individual dialysis sessions and information on how much fluid can be removed and how many complications occur in each session will be recorded. Dialysis sessions with albumin will be compared with those with saline alone to determine the benefit of adding albumin to the treatment. Information obtained from this study will allow physicians to manage patients requiring dialysis for acute kidney failure more effectively and help improve outcomes.