View clinical trials related to Renal Insufficiency.
Filter by:Liver transplantation is associated with a modification of the perfusion pressures of the abdominal organs (preoperative portal hypertension in connection with liver pathology, and normalization of the perfusion pressures during surgery). This abrupt change in the infusion regime is probably responsible for an alteration in renal function in some patients, and the identification of renal vascular profiles using Doppler could point to pathological profiles, which should be diagnosed early.
The CSP-2002 study will evaluate the safety and effectiveness of the InnAVasc arteriovenous graft (AVG) when implanted in and used for hemodialysis in participants suffering from end-stage renal failure (ESRD). The InnAVasc AVG is implanted and used similar to other standard-of-care dialysis grafts currently on the market. However, the InnAVasc AVG has been uniquely designed to potentially allow for immediate needle access (same day as implant surgery as opposed to 2-4 weeks of waiting), to potentially reduce excessive bleeding from the graft after dialysis, and it may provide protection from improper or missed needle cannulation attempts.
The purpose of this study is to establish if concomitant renal and vascularized urinary bladder allograft transplantation is feasible.
Open label, mechanistic, single-arm study to evaluate the natriuretic effect of 2 weeks dapagliflozin treatment in T2DM patients with impaired renal function. It will measure the average change in 24-hr sodium excretion from average Baseline to average values at Day 2 to 4 within the study group. The study will allow for an up to 6-week Screening and Run-in Period, a 2-week Treatment Period and a 5-day Follow-up Period. Patients will consume food from standardized food boxes starting on Day -6 (patients not on insulin) or Day -20 at the earliest (patients on insulin) of the study until Day 18 (inclusive). Eligible patients will receive dapagliflozin 10 mg tablets once daily for 14±1 days starting on Day 1. This will be followed by a Follow-up Period of 5 days.
A significant number of deceased donor kidneys donated for transplantation are not used and are thrown away due to lack of ways of checking their condition and function before the operation. This significantly reduces the number of potentially life saving transplants. The researchers wish to run a small pilot study to see if it is possible to improve the way transplant kidneys are assessed before transplantation by measuring how well they filter the blood, and how good their metabolism is. The researchers believe this new method will help transplant surgeons make better decisions about which kidneys to use. This pilot study will look at 10 kidneys obtained from older deceased donors. These kidneys are most at risk of being thrown away because of the condition of the donor they came from. At the hospital, these kidneys are usually put onto a machine which pumps cold preservation solution through them for a couple of hours. This time lets the transplant surgeons see how well or poorly the kidney responds to the flowing fluid. In this study the research team will do exactly the same, but also insert a small probe less than a millimetre in diameter into the kidney and the vein (draining blood pipe) and urine output to monitor a number of chemicals made by the kidney. The researchers believe that the changing levels of these chemicals will give the surgeons much more information than they have now. This probe is removed when the kidney is transplanted. Combining these levels with news of how well the patients recover after surgery will allow the research team to design a much larger study to get the right level of information to change the way surgeons choose kidneys and help more transplants happen in the future.
This prospective study will take place at Hotel Dieu de France hospital in Lebanon. One hundred children undergoing cardiac surgery for congenital heart disease between May 2020 and May 2021 will be included. After obtaining the informed consent of the parents, demographic and surgical information will be collected. Serum creatinine, lactic acid, urinary neutrophil gelatinase-associated lipocalin marker (NGAL), and oxygen (O2) saturation will be measured before the operation. A pediatric NIRS sensor will be placed on the right side below the costo-vertebral angle overlying the right kidney and continuous regional oxygen saturation (rSO2) will be recorded every 5 to 10 minutes throughout the operation until 24 hours after surgery. The children will be divided into 2 groups; 50 each. Grp 1: No clinical intervention was performed based on NIRS values. Grp 2: several maneuvers are performed such as an increase in cardiac output, temperature, hemoglobin to optimize the value of NIRS > 80%. All patients will receive standard standard care during the study period and continuous infusion of furosemide (0.5-1 mg / kg / 6 hours) within the first 24-48 hours postoperatively will be administered to all patients. Creatinine and lactic acid will be measured immediately postoperatively and then once a day until D2 and D7. The urinary NGAL marker will be dosed immediately postoperatively and then at 2h, 6h, 12h and 24h with hourly monitoring of diuresis and NIRS until 24h postoperatively.
Acute renal failure (ARF) after transcatheter aortic valve implantation (TAVI) is a frequent complication, with significant clinical consequences. History of chronic kidney disease and the use of a large amount of iodinated contrast for planning and procedure are among the main risk factors for the development of this complication. The present study aims to: (1) define the role of non-contrast imaging modalities in pre-procedure planning; (2) evaluate the feasibility and safety of a new TAVI technique without using iodinated contrast; (3) to determine the incidence of acute renal failure in patients with aortic stenosis and chronic kidney disease undergoing TAVI, using the new technique without contrast. The study will be divided into two stages. In the pilot phase, 25 consecutive patients with chronic kidney disease (stage ≥ 3a) will have the TAVI planning and procedure performed without the use of iodinated contrast, but with all the steps subjected to verification by the standard technique, to ensure the safety of the patient. The occurrence of the combined primary safety outcome composed of adverse clinical events within 30 days (defined by the VARC-2 criteria) in less than 20% of cases will be used to define the continuity of the study. In the second phase, 50 patients with chronic kidney disease stage ≥ 3b will be submitted to TAVI with the "zero contrast" technique. The primary outcome assessed at this stage of the study will be the incidence of AKI within 7 days after TAVI using the new technique in this high-risk population.
The goal is to investigate the safety of the conditioning regimen, and its ability to induce donor/recipient lymphohematopoietic chimerism without Chimerism Transition Syndrome (CTS), which may result in donor-specific unresponsiveness (tolerance) to the renal allograft in the absence of maintenance immunosuppression.
Several crosssectional and prospective studies have shown that metabolic syndrome and its related components are associated with both prevalent and incident CKD . Although the mechanisms for these cardiovascular benefits of Metformin and vildagliptin remain unclear, they extend well beyond glycemic lowering, and therefore are probably best considered diverse "cardiometabolic" pharmaceuticals rather than simply type 2 diabetes drugs. Metformin and vildagliptin have known vasculoprotective actions, but the value of these drugs on drug-naïve diabetic patients during 24 week use warrants investigation. The investigator's purpose was to observe their effects on weight control, Cardiometabolic Risk Factors, Metabolic Syndrome risk, and diabetic nephrooathy Progression.
The primary objective of the study aims to evaluate frequence of acute renal insufficiency in patients with ST-segment elevation who need urgent coronary angiography in Ambroise Paré hospital. The secondary objectives are: - identify factors of risks associated with the occurrence of acute renal insufficiency after coronarography. - establish a preprocedure score, predicting of acute renal insufficiency after urgent coronary angiography in patients with ST+ acute coronary syndrome.