17 Clinical Trials for Various Conditions
Current treatments for ARAS based on restoring blood flow alone have been unsuccessful at recovering kidney function. For this reason we are studying a stem cell product called "mesenchymal stem cells" or MSC. Mesenchymal stem cells (MSC) are grown from a person's own fat tissue (obtained as a fat biopsy) and infused back into the patient's own kidney. This study is also being done to determine if the MSC infusion prior to percutaneous transluminal renal angioplasty with stenting (PTRA) further enhances changes in single kidney blood flow and restoration of kidney function, as well as to assess the relationship between MSC dose and measures of kidney function.
To determine the safety and toxicity of intra-arterial infused autologous adipose derived mesenchymal stromal (stem) cells in patients with vascular occlusive disease of the kidney.
The purpose of the ISCHEMIA-CKD trial is to determine the best management strategy for patients with stable ischemic heart disease (SIHD), at least moderate inducible ischemia and advanced chronic kidney disease (CKD; estimated glomerular filtration rate \[eGFR\] \<30 ml/min/1.73 m² or on dialysis). This is a multicenter randomized controlled trial of 777 randomized participants with advanced CKD. Participants were assigned at random to a routine invasive strategy (INV) with cardiac catheterization (cath) followed by revascularization (if suitable) plus optimal medical therapy (OMT) or to a conservative strategy (CON) of OMT, with cath and revascularization reserved for those who fail OMT. The trial is designed to run seamlessly in parallel to the main ISCHEMIA trial as a companion trial. SPECIFIC AIMS A. Primary Aim. The primary aim of the ISCHEMIA-CKD trial is to determine whether an invasive strategy of cardiac cath followed by optimal revascularization, in addition to OMT, will reduce the primary composite endpoint of death or nonfatal myocardial infarction in participants with SIHD and advanced CKD over an average follow-up of approximately 2.8 years compared with an initial conservative strategy of OMT alone with catheterization reserved for those who fail OMT. The primary endpoint is time to centrally adjudicated death or nonfatal myocardial infarction (MI). B. Secondary Aims. Major: To compare the incident of the composite of death, nonfatal MI, resuscitated cardiac arrest, or hospitalization for unstable angina or heart failure, and angina symptoms and quality of life, as assessed by the Seattle Angina Questionnaire, between the INV and CON strategies. Other secondary aims include: comparing the incidence of the composite of death, nonfatal MI, hospitalization for unstable angina, hospitalization for heart failure, resuscitated cardiac arrest, or stroke; composite of death, nonfatal MI, or stroke; composite endpoints incorporating cardiovascular death; composite endpoints incorporating other definitions of MI as defined in the clinical event charter; individual components of the primary and major secondary endpoints; stroke and health resource utilization, costs, and cost effectiveness. A major secondary aim of ISCHEMIA-CKD trial is to compare the quality of life (QOL) outcomes-patients' symptoms, functioning and well-being-between those assigned to an invasive strategy as compared with a conservative strategy. In the protocol, angina frequency and disease-specific quality of life measured by the Seattle Angina Questionnaire (SAQ) Angina Frequency and Quality of Life scales, respectively, are described as the tools that will be used to make this comparative assessment. Recent work has indicated that it is possible to combine the information from the individual domain scores in the SAQ into a new Summary Score that captures the information from the SAQ Angina Frequency, Physical Limitation and Quality of Life scales into a single overall score. The advantages of using a summary score as the primary measure of QOL effects of a therapy are a single primary endpoint comparison rather than two or three (eliminating concerns some may have about multiple comparisons) and a more intuitive holistic (patient-centric) interpretation of the effectiveness results. With these advantages in mind, the ISCHEMIA leadership has agreed that the SAQ Summary Score will be designated as the primary way this secondary endpoint will be analyzed and interpreted, with the individual SAQ scores being used in a secondary, explanatory and descriptive role. A key subgroup analysis will be to stratify the results among those with daily/weekly angina (baseline SAQ Angina Frequency score ≤60), monthly angina (SAQ Angina Frequency score 61-99) and no angina (SAQ Angina Frequency score = 100). Condition: Coronary Disease Procedure: Cardiac catheterization Phase: Phase III Condition: Cardiovascular Diseases Procedure: Angioplasty, Transluminal, Percutaneous Coronary, other catheter-based interventions Phase: Phase III Condition: Heart Diseases Procedure: Coronary Artery Bypass Surgery Phase: Phase III
Contrast-medium induced nephropathy (CIN) is a frequent and devastating complication of coronary angiography, occurring in 10-50% of cases. As would be expected, the incidence of CIN is much higher in patients with underlying renal dysfunction. Multiple trials have found CIN to be an independent predictor of prolonged hospitalization and both 30 day and 1 year mortality in patients with coronary artery disease. Intravenous contrast dye is felt to cause renal ischemia as the mechanism of injury. Unfortunately, despite the significant morbidity and mortality with CIN, there are few therapeutic interventions to reduce the risk with the exception of hydration and high dose statin therapy. Recently, remote ischemic preconditioning (RIPC), a process of inducing transient arm ischemia by inflating a blood pressure cuff to 200 mmHg for 3 repetitive 5 minute cycles, leads to a systemic cytoprotective response and ultimately reduces ischemic renal injury, myocardial injury, and even cerebral injury following coronary bypass grafting. While there is significant data supporting the role of RIPC in reducing systemic ischemic injury in surgical patients, there is only one small trial studying RIPC in patient's undergoing coronary angiography. The investigators hypothesize that RIPC will reduce the incidence of contrast-induced nephropathy in patients with baseline renal dysfunction undergoing coronary angiography for stable or unstable coronary artery disease.
The use of imaging is increasing in clinical practice, either for diagnosis or intervention. In these imaging processes, contrast medium (CM) is widely used. However, CM administration can induce contrast-induced nephropathy (CI-AKI). CI-AKI is the third most common cause of renal insufficiency, and its incidence varies from 2% to 50% depending on patient risk factors; in addition, studies have shown that CI-AKI occurs in 2% to 25% of patients undergoing coronary intervention. CI-AKI is associated with significant mortality and morbidity in patients undergoing coronary angiography or other diagnostic contrast studies. We assessed the latest promising evidence on the ability of remote ischemic preconditioning (RIPC) to reduce the incidence of CI-AKI in patients undergoing Coronary Angiogram (CA) or diagnostic contrast studies such as CT angiogram, while at the same time being a non-invasive, low cost, easy, and safe method with absence of adverse effects. However, more randomized controlled trials are needed to confirm these preliminary results. The aim of this study is to minimize the incidence of CI-AKI at the University of Texas Medical Branch (UTMB). If found to be an effective method, RIPC would help minimize the incidence of CI-AKI in all institutions across the globe, who would adopt this intervention. The primary objective: i) reduce the rise in creatinine to \< 0.5 mg/dL post-CA in moderate to high risk patients and ii) reduce the incidence of renal replacement therapy post-CA in moderate to high risk patients; iii) we also aim to establish that RIPC is safe and effective. We hypothesize that the use of RIPC, when added to standard medical therapy (pre-and post-CA hydration), will mitigate the effects of contrast on the renal vasculature and lessen the incidence of CI-AKI in moderate to high risk patients at the University of Texas Medical Branch. The use of iodinated contrast to visually enhance target vasculature is a widely used diagnostic technique that is performed daily at UTMB, and around the world, for the diagnosis and management of a variety of conditions. A common complication of this procedure is acute kidney injury (AKI), generally referred to as contrast-induced nephropathy (CI-AKI). This complication can range from an isolated rise in serum creatinine to severe renal dysfunction necessitating renal replacement therapy. The incidence of CI-AKI has been reported as approximately 2-50%, depending upon the definition and sensitivity of assay employed to assess GFR in the hospital setting. In addition, CI-AKI is associated with significant mortality and morbidity. If proven to be beneficial, RIPC will bring about a reduction in incidence of CI-AKI, and thus help to reduce hospitalization and mortality from renal etiology following a given contrast procedure.
This is a prospective, double-blind, sham-controlled, multicenter, randomized clinical trial is to study the effects of remote ischemic preconditioning on contrast-associated acute kidney injury, functional capacity, and major adverse kidney events in in patients with congestive heart failure undergoing cardiac catheterization and/or percutaneous coronary intervention.
Severe aortic stenosis remains a major cause of morbidity and mortality of the elderly affecting approximately 3% of elderly patients with an increasing number of patients undergoing transcatheter aortic valve interventions. As part of pre-procedural planning these patients undergo CT scans and receive contrast during the procedure. These patients often have baseline renal insufficiency and are high risk of contrast induced nephropathy despite pre-hydration techniques. The purpose of this study is to evaluate the efficacy of this simple and safe procedure in preventing renal injury in this particular population.
This a prospective, double-blind, sham-controlled, randomized clinical trial to study the effects of remote ischemic preconditioning on acute kidney injury, vascular and renal biomarkers in patients with non-ST elevation myocardial infarction and unstable angina undergoing coronary angiography and/or percutaneous coronary intervention.
In this study, the investigators will be looking at results of tests of memory and thinking and daily activities in a group of people without known chronic kidney disease (CKD) , and a group of CKD patients, and follow the participants for up to four more years, including after the participants start dialysis or receive a transplant. The investigators are doing this study to compare how often memory loss, confusion and difficulty with daily activities occur in those without and those with CKD. Additionally, the investigators are doing this study to identify risk factors for memory and thinking problems in CKD patients. The information received through the NDI will be utilized to help track our study population and help provide useful information regarding cause of death of those in our study.
This study evaluates how aspirin, clopidogrel and ticagrelor work in people with chronic kidney disease (CKD) compared to people with normal kidneys. In the first part of the study, half of CKD participants will be randomly assigned to ticagrelor and aspirin, while the other half will be assigned to clopidogrel and aspirin in a blinded fashion. The treatment duration will be two weeks. After recruiting CKD participants the investigator will recruit controls with normal kidney function that will receive only ticagrelor and aspirin for two weeks.
In this study, patients undergoing live donor kidney transplantation will be allocated to the control group or remote ischemic preconditioning group (RIPC). RIPC is the utilization of short periods of ischemia to provide protection of the myocardium or other organ (i.e. kidney) from a subsequent ischemic event. Before allograft implantation, RIPC will be accomplished in the treatment group donor and control group donor by inducing intermittent extremity ischemia through intermittent inflation of an extremity tourniquet three times for five-minute intervals with five minutes of deflation between inflation periods. The monitored clinical end points will include total urine output following kidney reperfusion over five days, plasma creatinine declination over five days, initiation of dialysis, and development of graft injury. Magnitude of graft injury is the primary endpoint and will be measured using biochemical markers, such as, plasma and urinary concentration of neutrophil gelatinase associated lipocalin (NGAL), interleukin-18 (IL-18), and kidney injury molecule-1 (KIM-1). The sample size calculation is based on a projected difference of NGAL levels between the two study arms. Hall et al reported a mean NGAL level of 49 mg/mL (SD = 37 mg/mL) for a group of patients that had immediate graph function and a mean NGAL level of 248 mg/mL in a group of patients with slow graft function. (which Hall reference is this) Based on these data, a conservative estimate of a mean difference between study groups will be considered 35 mg/mL NGAL. Using these assumptions, an alpha level of 0.05 and 80% power, a sample size of n= 19 per study group will be calculated. By rejecting our null hypothesis, RIPC may serve as a safe, cost-effective protective strategy to prevent allograft injury in the clinical setting of live donor kidney transplantation.
Does remote ischemic preconditioning (RIPC) induced by a brief period of occlusion of blood flow to the lower extremity prior to organ recovery in deceased donors, improve short and long term outcomes after transplantation of kidneys, livers and pancreas? To test this hypothesis deceased organ donors will be randomized to receive either RIPC or No RIPC before organ recovery. RIPC will be induced in the operating room after commencement of procurement surgery. RIPC will be induced by tourniquet-induced occlusion of blood flow to the lower extremity for 10 minutes in each side, for a total duration of 20 minutes. The remainder of the organ recovery and organ preservation will be as per standard of practice. Recovered livers, kidneys and pancreas will be transplanted into allocated recipients. Transplantation and patient management after transplantation will be as per standard of practice. Organ-specific function and cell injury parameters will be utilized to assess the early postoperative outcomes of individual organs and recipients. Long term outcomes will be assessed by graft and recipient survival.
The use of C1INH (Berinert) in patients receiving deceased donor kidney transplants with high risk for delayed graft function (DGF) may show significant improvement in outcomes post transplant compared with patients that do not receive C1INH treatment. Complement activation has been detected in animal models and human kidneys with ischemic reperfusion injury (IRI) and inflammatory cell infiltrates. By blocking complement activation the investigators hope to improve kidney graft function post transplant in these recipients.
The chemokine CXCL8 plays a key role in the recruitment and activation of polymorphonuclear neutrophils in post-ischemia reperfusion injury after solid organ transplantation. Reparixin is a novel, specific inhibitor of CXCL8. This study is configured to explore the safety and efficacy of reparixin in preventing the delayed graft function (DGF) after kidney transplantation.
Long-term graft failure rates continue to be unacceptably high despite the development of immunosuppressive drugs, underscoring the unmet need for robust prognostic biomarkers of allograft injury and failure. While rates of acute rejection (AR) continue to decrease, it remains the strongest predictor of long-term allograft survival, and so having a better understanding of factors predicting AR may contribute to more individualized patient care. Selecting optimum immunosuppressive dosage is another factor in personalizing kidney care. This project will study two areas of individualized kidney care: 1) assessing rejection by surveillance testing utilizing AlloSure, 2) developing an algorithm to select optimum immunosuppressive medication dosage.
The purpose of the Patient and Provider Assessment of Lipid Management Registry (PALM) is to gain a better understanding of physicians' cholesterol medication prescribing practices, patient and physician attitudes and beliefs related to cholesterol management, and current utilization of cholesterol-lowering therapies given the new ACC/AHA guideline recommendations. The PALM Registry hopes to allow for the design of ways to improve cholesterol management and decrease the burden of cardiovascular disease (CVD) in the US.
Below-the-Knee Interventions for Limb Salvage: Use of Multifunctional Angioplasty Balloon Catheters ("BTK Multicath Registry") A non-randomized clinical registry This study is designed to obtain preliminary data on clinically relevant procedural variables during percutaneous below-knee artery revascularization procedures among consecutive patients treated with either the Finesse BTK Multicath® ("Finesse") or the standard of care using conventional angioplasty balloon catheters. This registry will enroll participants with a history of chronic limb threatening ischemia and below-knee arterial insufficiency who will be assigned to revascularization with or without use of the Finesse BTK Multicath. The registry is an acute study examining procedural data only. The primary endpoints of interest are the volume of contrast used for the intervention, overall procedure time, radiation dose, number of catheter exchanges during revascularization, and medical device supply costs. For the first phase 12 consecutive patients will be treated with the standard of care. For the second phase 12 consecutive patients will be treated with Finesse. 24 participants total Up to 5 study sites in the United States Initial anticipated enrollment: Q4 2024 Last anticipated enrollment: Q2 2025 Patients \>=18 years old with documented history of unilateral chronic limb threatening ischemia due to below-knee arterial insufficiency with angiographic runoff in the foot and limited arterial insufficiency above the knee 1. Contrast volume administered during the revascularization portion of a procedure. 2. Number of catheter exchanges during revascularization 3. Fluoroscopy time 4. Radiation dose during revascularization 5. Procedure time post-enrollment 6. Equipment costs 7. Reduced use of supplies 8. Technical success 9. Safety/Major Adverse Peripheral Events On-treatment sample Intention-to-treat