21 Clinical Trials for Various Conditions
This study is a multi-center, prospective, randomized (2:1), open-label study to evaluate the safety and efficacy of DSR therapy using the Infusate 2.0 peritoneal solution (composed of 30% icodextrin and 10% dextrose) in diuretic resistant patients with HF and persistent volume overload.
Almost 15% of Americans have chronic kidney disease (CKD), with an even higher rate in Veterans due to common risk factors such as high blood pressure and diabetes. People with CKD have a high risk of cardiovascular (CV) diseases, such as heart attacks, heart failure, and strokes. Extra fluid in the body, called volume overload, may lead to CV disease in people with CKD. It is unknown if volume overload develops in the earliest stages of CKD, when treating it with common, inexpensive medicines called diuretics may improve long-term CV outcomes. This study will lay important groundwork to answer this question in Veterans with early CKD by comparing two ways to measure volume overload and studying the change in common symptoms like fatigue and short-term CV function after treatment with diuretic medicines.
Sodium-adapted magnetic resonance imaging (23Na-MRI) studies have demonstrated that sodium accumulates in certain tissues, including the skin and skeletal muscle, but may be manipulated by lifestyle factors or therapeutic interventions such as a hemodialysis (HD) session. This tissue sodium accumulation is increased with age and in the presence of certain chronic diseases such as renal failure, and may contribute to the development of high blood pressure. It currently not known what the impact of dietary sodium consumption has on tissue sodium in HD patient's and on the subsequent risk of cardiovascular complications either acutely or chronically. The University of Illinois' Biomedical Imaging Center recently completed safety testing on a 23Na-MRI coil that they modified for measuring skin and muscle sodium levels in the lower leg/calf that will be used for assessing the impact of dietary salt restriction on tissue sodium levels.
The investigators hypothesize that beta-1 receptor blockade (ß1-RB) attenuates extracellular matrix (ECM) degradation and progressive adverse Left Ventricular (LV) remodeling and failure in the volume overload of mitral regurgitation (MR). Patients without coronary artery disease and moderate MR, as assessed by color/flow Doppler echocardiography, will be randomized to ß1-RB vs. placebo to address the following aims: \*Aim 1: Establish whether ß1-RB attenuates adverse LV remodeling compared to placebo in patients with non-surgical, chronic MR. Using 3-dimensional magnetic resonance imaging (MRI) and tissue tagging, LV function and geometry will be assessed at baseline and every 6 months for up to 2 years. Aim 2: Determine whether indices of inflammation correlate with degree of LV remodeling and whether ß1-RB decrease indices of inflammation and collagen turnover. At the time of MRI, blood samples for collagen breakdown products, matrix metalloproteinase (MMP) activity, and markers of excess production of reactive inflammatory species (RIS) will be obtained and related to changes in LV remodeling defined by serial 3-dimensional MRI and tissue tagging.
The investigators are proposing a prospective, randomized, double blinded, placebo-controlled single center study evaluating the role of co-administration of oral sodium chloride (NaCl) with intravenous diuretics in patients hospitalized with acute decompensated heart failure. The investigators are approaching this study with the hypothesis that the use of oral sodium chloride leads to improved effective diuresis (as measured by weight loss) and renal function as compared to placebo in patients hospitalized with acute decompensated heart failure undergoing aggressive intravenous diuretic therapy.
Renal failure and resuscitation measures in critically ill patients can result in fluid overload. Fluid overload in renal failure patients can cause harmful effects like pulmonary edema, anasarca and congestive cardiac failure exacerbations among other complications. These have been associated with increased time on the ventilator, increased length of stay in the ICU, and higher overall mortality for patients requiring dialysis in the ICU. The current standard of care for adjusting fluid removal rates in patients on continuous renal replacement therapy relies on clinical judgement. Clinicians take into account factors like the patient's condition, vasopressor requirements, kidney function, total intake and outputs, vital signs, and physical examination findings when making daily changes to fluid removal rates on dialysis machines. Such assessment is highly subjective and can be imprecise/inaccurate leading to hypotension and hemodynamic instability in a critically ill patient. Use of conventional ultrasound by physicians to assess volume status using compressibility of the inferior vena cava has been shown to be a reliable predictor of volume status and can help guide therapy. Such use makes bedside volume assessment a non-invasive, rapid, repeatable point of care tool that can provide objective data to guide fluid removal determine velocity of fluid removal and help identify patients at risk of hypotension and hemodynamic instability during the process of fluid removal. Apart from rare possible local allergic reactions to ultrasound jelly and transient local discomfort, the disadvantages are minimal. Ultrasonography has been considered a safe imaging modality. This protocol will measure inferior vena cava compressibility using the General Electric VScan with Dual Probe, which has FDA approval for abdominal and vascular imaging in humans.
Randomized, unblinded clinical trial of 152 critically ill patients with sepsis admitted to the intensive care unit. The primary determine if using the Venous Excess Ultrasound Score (VExUS) to guide fluid deresuscitation in critically ill patients with sepsis reduces net fluid balance at 5 days as compared to usual care.
A common complication of the progression of cirrhosis is fluid retention (ascites, edema, or pleural effusion). Loop diuretics are the treatment of choice for fluid retention in cirrhotic patients; however, many of these patients demonstrate diuretic resistance, requiring higher doses of the diuretics to achieve adequate diuresis. The cause of this diuretic resistance is hypothesized to be secondary to hypoalbuminemia which has led some providers to give human albumin in combination with loop diuretics to increase intravascular volume and facilitate diuresis. However, this practice remains controversial because minimal data exists to support its efficacy. The purpose of this study is to compare the efficacy of diuretics alone versus diuretics in combination with albumin in cirrhotic patients presenting with fluid retention.
Kidney failure has been recognized as one of the most costly chronic conditions among United States Veterans. Approximately 13,000 Veterans develop kidney failure each year, and most require hemodialysis initiation. Hemodialysis patients suffer significantly increased risk of death and hospitalizations, and excessive body fluid is a major cause of this. While empiric aggressive fluid removal during dialysis is one approach to limit fluid overload, this can cause dangerous decreases in blood pressure during dialysis that independently contribute to the high death rate. In this study, I aim to test a new strategy that prescribes fluid removal based on a patient's recent blood pressure patterns during dialysis. This clinical trial will compare my strategy to standard care and assess the outcomes of overall blood pressure change between dialysis treatments in addition to the number of times the blood pressure becomes dangerously low during dialysis. Another aim is to determine how differences in the structure and function of the heart influence blood pressure during dialysis.
Researchers are observing the values of proEnkephalin (PENK) via a blood draw in hospitalized patients that are volume overloaded requiring diuresis. If changes in PENK are found, physicians may predict values of change in kidney function during treatment.
The following pilot study will be undertaken to determine the effects of use of a zero-sodium peritoneal dialysate solution (10% dextrose in sterile water) on sodium removal as compared to a standard peritoneal dialysis solution.
Patients who are on mechanical ventilation in an intensive care unit often require diursis as part of their pre-extubation regimen. The drug of choice for diuresis has traditionally been furosemide. However, this drug cause hypernatremia (a rise in serum sodium) in a significant proportion of patients. Hypernatremia is traditionally treated by providing free water supplementation to the patient. This strategy creates a vicious and unproductive cycle of giving free water, and then diuresing it off. We propose a strategy for breaking this cycle by using a second diuretic-- metolazone-- which has a tendency to rid the body of more sodium, thereby minimizing hypernatremia.
Patients with cirrhosis are frequently hospitalized due to an acute decompensation of their liver disease including bleeding, jaundice, encephalopathy, and volume overload. Volume overload is associated with increased mortality from acute hypoxic respiratory failure, hemorrhage from esophageal varices, and spontaneous bacterial peritonitis. Clinical practice guidelines describe sodium restriction and diuretics as first-line treatment, combined with regular body weight monitoring to assess response. In patients with suboptimal response to furosemide, alternative loop diuretics like torsemide or bumetanide may improve natriuresis. Bumetanide has a theoretic advantage over furosemide due to its more rapid and complete intestinal absorption, combined with a prolonged half-life in patients with hepatic dysfunction. In this pragmatic study, the aim is to compare the efficacy of diuresis with bumetanide versus furosemide among hospitalized patients with cirrhosis.
Almost 15% of Americans have chronic kidney disease (CKD), with an even higher rate in Veterans due to common risk factors such as high blood pressure and diabetes. People with CKD have a high risk of cardiovascular (CV) diseases, such as heart attacks, heart failure, and strokes. Extra fluid in the body, called volume overload, may lead to CV disease in people with CKD. It is unknown if volume overload develops in the earliest stages of CKD, when treating it with common, inexpensive medicines called diuretics may improve long-term CV outcomes. This study will lay important groundwork to answer this question in Veterans with early CKD by comparing two ways to measure volume overload and studying the change in common symptoms like fatigue and short-term CV function after treatment with diuretic medicines.
This research study is a randomized clinical trial to evaluate if taking diuretics (medications that increase urine production and help with fluid removal from the body) in a standardized fashion (using a guideline for adjusting doses based on measured urine output) could improve health outcomes in patients with cardiorenal failure or cardiorenal syndrome (combined heart and kidney failure) with edema (too much fluid in their arms, legs, and/or lungs). Under usual care, these patients are treated with diuretics and other medications in increasing doses, but not necessarily to maintain a specific amount of urine output per day. Current heart failure (HF) treatment guidelines do not provide any standard protocol, or guideline, for adjusting diuretic doses. At the point when kidney function worsens to the degree that the kidneys are no longer able to respond to the medications used to remove fluid, either ultrafiltration (UF) or dialysis (also called hemodialysis \[HD\]) is typically started in order to remove fluid. In both UF and dialysis, excess fluid is removed from the body by using a machine. In dialysis, both waste products and fluid are removed and electrolyte abnormalities are corrected. In UF, only fluid is removed. Both procedures use the same machine. This study will test whether a Protocolized Diuretic Strategy (ProDiuS), a plan for adjusting diuretic doses based on measured urine output, will improve clinical care for cardiorenal syndrome. Such a plan for adjusting diuretic doses is needed to improve symptoms, decrease the length of hospital stays and rehospitalization rates, and improve health-related quality of life (HRQOL) in cardiorenal syndrome patients.
The purpose of this study is to evaluate the effects of oral lixivaptan capsules in patients with congestive heart failure.
The primary aim of this study is to investigate whether intensive sodium management by dietary sodium restriction and by preventing positive sodium balance during dialysis can be successfully applied in chronic hemodialysis patients. Secondary aims are to test if sodium restriction has positive effects on the frequency of hospital admissions, blood pressure, fluid overload, quality of life and residual renal function.
Critically ill patients with acute kidney injury and fluid overload who are frequently treated by fluid removal during dialysis are at an increased risk of complications and death. Both slower and faster rates of fluid removal may cause injury to the vital organs. This proposed clinical trial will examine the feasibility of restrictive compared with a liberal rate of fluid removal in order to develop effective treatments for fluid overload and to improve the health of critically ill patients.
The objective of this feasibility study is to characterize the performance of the Aquadex FlexFlow® System with the hematocrit (HCT) feature in conjunction with Daxor's blood volume analyzer (BVA-100). The study will monitor blood volume changes during ultrafiltration (UF) therapy as a potential means to guide the removal of fluid in subjects hospitalized with acute decompensated heart failure (ADHF).
Despite continuing advances in iron chelation therapy, iron toxicity of endocrine glands, particularly the pituitary gland, remains common in patients with transfusion dependent anemias. We would like to establish accurate population norms of pituitary R2 and volume and understand the progression of pituitary iron in transfused patients on Deferasirox.
The present study is designed to confirm and extend the observation from previous studies that lixivaptan therapy corrects hyponatremia, in euvolemic subject, including subjects with SIADH.