View clinical trials related to Renal Insufficiency, Chronic.
Filter by:Contrast induced nephropathy (CIN) is a well-known possible complication of percutaneous coronary intervention (PCI) with an incidence varies from 3.3% to 14.5% in patients undergoing PCI. Many previous randomized and non-randomized studies have shown very conflicting results regarding the use of ACE-Is prior to coronary angiography, and whether it decreases or increases the risk of CIN. The importance of this study is to help find an acceptable and reliable answer for the use of ACE-I/ARBs prior to cardiac catheterization. This research aims to study the effect of withholding ACE-Is or ARBs on the incidence of contrast induced nephropathy in patients undergoing coronary angiography who have chronic kidney disease (GFR<60 ml/min/1.73 m2) and to help build evidence-based data and guidelines on the safety of continuing or withholding ACE-I/ARBs pre contrast administration.
This prospective cohort study aim to investigate the ability of multiple types of assessments including 1) the modified Venous Excess Ultrasound (VExUS) assessment, 2) non-invasive estimation of absolute blood volume (ABV), and 3) change in carotid Doppler at the start of IKRT to predict IDHE in acutely ill hospitalized patients. The secondary aim will be to determine whether each modality improves the prediction of IHDE compared to the evaluation of the attending physician and whether they also predict cerebral hypoxia during IKRT measured by near-infrared spectroscopy (NIRS). Finally, detailed hemodynamic data including relative blood volume monitoring, tissue oximetry, and other parameters will be collected continuously during IKRT sessions enabling exploratory analyses aimed at identifying hemodynamic phenotypes related to IDHE during IKRT.
Patients with end-stage renal disease undergoing hemodialysis (HD) are burdened with extremely high mortality rates (15% per year) and during the early stage (≤120days) the mortality rate is even higher (27% per year). Cardiovascular complications and bloodstream infections (BSIs) account for the vast majority of deaths in HD patients. In Denmark, BSIs occur in 14% of HD patients per year and is most frequently caused by Staphylococcus aureus (44%). The most frequent infectious complication is endocarditis that has fatal outcomes in ≈50% of the cases. Overall, 10% of HD patients die within 30 days after a positive blood culture for S. aureus. This project aims to answer key questions regarding HD patients' decreased ability to fight S. aureus BSIs and in particular the potential exacerbating effect of HD. We hypothesize that HD patients' blood is significantly compromised by the process of HD, to an extend that lowers immunoactivity against S. aureus. Moreover, we hypothesize, that contact activation promotes the coagulability of blood thus promoting biofilm formation by S. aureus which increases the overall risk of BSI. We will test these hypotheses by collecting blood and analyzing the inflammation and coagulation status in plasma samples from participants before and after HD. We will compare the level of the inflammatory markers in plasma from participants undergoing HD (n=180) to the level in plasma samples from three control groups: healthy volunteers (n=120), participants with renal disease not in dialysis (n=60) and participants undergoing peritoneal dialysis (n=40).
This is a phase II study to evaluate the safety and efficacy of AND017 in renal anemia patients on dialysis
This study will determine the renoprotective effect of febuxostat in prevention of contrast induced acute kidney injury in chronic kidney disease patients Stage 3 undergoing percutaneous coronary intervention.
With the rise of cardiovascular diseases (CVD) and diabetes, the global disease burden is shifting towards non-communicable diseases (NCDs). An increasing number of low- and middle-income countries (LMICs) are currently experiencing the double burden of infectious and non-communicable diseases. In order to facilitate a patient-centred approach to healthcare, there is an urgent need to ensure that primary healthcare (PHC) facilities in LMICs are capable of addressing diagnosis and monitoring of non-communicable diseases at the point-of-care (POC). Important minimum parameters for PHC POC diagnosis and monitoring of cardiometabolic diseases are lipids/lipoproteins, glucose, glycated haemoglobin (HbA1c) and serum creatinine, to address cardiovascular disease, diabetes and chronic kidney disease. While several technologies of multi-parameter POC devices capable of supporting diagnosis and monitoring of cardiometabolic diseases exist, their quantitative accuracy is often not well evaluated outside of the manufacturer's laboratories and published independent evaluations can be rare, particularly in the settings of intended use. These settings are PHC facilities in varying climatic environments and with staff without specialist laboratory training. Our study aims to evaluate the quantitative accuracy of 2 cardiometabolic POC devices in a setting of intended use and performed by the intended user. (Evaluating the quantitative measurements of glucose, HbA1c, total cholesterol and creatinine as measured in a healthcare setting with point-of-care multiparameter devices compared to a laboratory reference method).
This study examines the implications of providing hospital-level care in rural homes.
Chronic kidney disease (CKD) is a burden of morbidity and mortality. Increased protein breakdown in skeletal muscle (wasting) and ectopic fat deposition are important determinants of poor clinical outcome in patient with CKD. Insulin resistance plays a critical role in skeletal muscle wasting and ectopic fat deposition. Glucagon-like peptide-1 receptor agonists (GLP-1RA) decrease ectopic fat deposition in patients with type 2 diabetes, prediabetes, obese and overweight subjects. The influence of GLP-1RA on ectopic fat deposition in CKD patients in unknown. The investigators' will test the hypothesis that GLP-1RA decreases intermuscular (ectopic) fat deposition in patients with stage 3-4 CKD. The investigators' will do so by addressing the following specific aims: Specific Aim 1: To test the hypothesis that GLP-1RA decreases intermuscular fat deposition in patients with stage 3-4 CKD. Specific Aim 2: To test the hypothesis that GLP-1RA improves skeletal muscle mitochondrial function in patients with stage 3-4 CKD. Specific Aim 3: To test the hypothesis that GLP-1RA improves physical performance in patients with stage 3-4 CKD. Specific Aim 4: To test the safety and feasibility of 12 weeks of dulaglutide 1.5 mg/wk administration as an adjunct therapy to the standard care of patients with stage 3-4 CKD.
The aims of the study were to determine whether pharmacists' interventions combining patient home-based self-measured BP monitoring improve blood pressure reduction and control compared with usual care in chronic kidney disease (CKD) patients
Finerenone works by blocking a group of proteins, called mineralocorticoid receptor. An increased stimulation of mineralocorticoid receptor is known to trigger injury and inflammation in the kidney and is therefore thought to play a role in CKD. Empagliflozin lowers blood sugar levels by increasing the excretion of glucose from the blood into the urine. In this study, the researchers want to learn how well the combination of finerenone and empagliflozin helps to slow down the worsening of the participants' kidney function compared to either treatment alone. For this, the level of protein in the urine will be measured. The investigators also want to know how safe the combination is compared to either treatment alone. Depending on the treatment group, the participants will either take the combination of finerenone and empagliflozin, or finerenone together with a placebo, or empagliflozin together with a placebo, once a day as tablets by mouth. A placebo looks like a treatment but does not have any medicine in it. Importantly, the participants will also continue to take their other current medicine for CKD and T2D. The participants will be in the study for up to 7.5 months and will take the study treatments for 6 months. During the study, participants will visit the study site 7 times. The study team will: - collect blood and urine samples - check the participants' vital signs - do a physical examination including height and weight - check the participants' heart health by using an electrocardiogram (ECG) - monitor the participants' blood pressure - ask the participants questions about how they are feeling and what adverse events they may be having An adverse event is any problem that happens during the trial. Doctors keep track of all events that happen in trials, even if they do not think the events might be related to the study treatments.