22 Clinical Trials for Various Conditions
Heart failure (HF) is a major public health problem, which affects about 5 million Americans.HF is when the heart muscle does not pump as much blood as the body needs. As a result of this,the body has difficulties in keeping an optimal fluid status. The fluid status of the body is regulated by both the heart and the kidneys. Due to the strong interaction between the heart and the kidneys, heart failure can result in a slight decreased kidney function as well. It is known that people who primarily suffer from chronic kidney disease (CKD) have a higher risk of developing arterial calcifications. Calcification of the arteries is caused by deposits of calcium within the walls of the blood vessels. Calcifications of the arteries may result in a loss of elasticity of the blood vessels. Recent research studies have shown that people with CKD have stiffer blood vessels which in these people, is associated with a higher chance of developing cardiovascular diseases. However, it is not known whether a decrease in kidney function in people with HF results in arterial calcification as well. In addition, it is not known whether this is also associated with a higher risk of developing cardiovascular diseases (diseases of the heart and blood vessels.) We are asking you to take part in this study because you have HF combined with some decrease in your kidney function. The purpose of this study is to see whether people with HF and a decrease in kidney function do have a higher chance of developing arterial calcifications. We will do this by comparing the results of the following; 1) several blood tests, 2) pictures taken of your heart by echocardiogram and computed tomography (CT) scan, and 3) measurements of the elasticity of your arteries. All of these tests are routinely used in clinical care. However, there have not been any research studies that have compared these results to see how they relate to arterial calcification in people with HF who have a decrease in kidney function. We also want to see whether people with HF and a decreased kidney function are at a higher risk of developing cardiovascular diseases. This study is being performed at Massachusetts General Hospital (MGH), in Boston Massachusetts. We expect to enroll a total of 150 subjects at MGH.
The purpose of this study is to look at kidney function and hormonal function in patients with a history of heart failure and kidney dysfunction, and to see how the use of a new drug, ANX-042, affects those functions.
Among adult individuals with type 2 diabetes mellitus and at risk for heart failure with impaired relaxation of the heart mildly reduced kidney filtration function (Type 4 cardiorenal syndrome) this trial will evaluate the quantitative impact of 38 weeks of treatment with exenatide extended-release injections versus placebo. on a cardiac biomarker blood test score, cardiac fibrosis seen on magnetic resonance scanning, cardiac strain identified by ultrasonography and strain rate imaging, and a kidney urine biomarker score.
The long-term objective of this study is to test whether the addition of SGLT2 inhibitors to usual care during acute heart failure management in patients who develop kidney injury shortens the time to achieving symptomatic improvement and kidney function recovery. The study aims to assess feasibility and acceptability of such a randomized clinical trial.
Heart failure is recognized as one of the most common indications for hospitalization amongst adults aged \>65 years in United States with estimated Medicare cost to be 17 billion or more. Chronic heart failure is one of the most life threatening cardiovascular disorder thought to affect nearly six million US population with 600,000 new cases every year. The heart is responsible for perfusion to all vital organs including kidneys and dysfunction in either affects both the vital organs. When dysfunction of heart leads to dysfunction of kidneys or vice versa it is referred to as cardio renal syndrome (CRS). The underlying pathophysiology for CRS has been poorly understood and considered multifactorial. Worsening renal function defined as increase in serum creatinine of \>0.3mg/dl from baseline occurs in 20-30% of patients with ADHF and is associated with greater length of hospital stay, hospital readmission and death. A number of interventions have been used including giving diuretics which helps in decongestion and helps the heart pump blood more effectively. Sometimes these therapies are not effective and may even lead to worsening of renal function. In such cases , inotrope agents which increase the contractility of the heart have been used to help pump more blood to vital organs. There have been very few trials assessing the efficacy of these agents for improving kidney function .The investigators aim to assess the renal recovery with two such agents - dobutamine and milrinone in patients with cardiorenal syndrome who are coming with acute decompensated heart failure
The purpose of this study is to evaluate the ability of a non-invasive monitor that measures how much fluid is in the body as well as various blood tests for their ability to predict worsening kidney function in patients with heart failure.
The purpose of this study is to determine whether Nesiritide is more effective than nitroglycerin in modifying inflammatory and neurohormonal biomarkers without renal toxicity when proper infusion duration is administered.
Heart failure is a serious condition in which the heart's ability to pump blood through the body is impaired, often making a person feel weak or fatigued. When a person's condition worsens to the point of hospitalization, that person is said to have acute decompensated heart failure (ADHF). Abnormal kidney function in association with cardiac distress, known as cardiorenal syndrome, is a common complication of heart failure and causes further medical problems and need for hospitalization. While there are various effective treatments for heart failure, more research is needed to determine the best treatment for targeting both ADHF and cardiorenal syndrome. This study will compare the safety and effectiveness of ultrafiltration versus standard medical drug therapy in improving renal function and relieving fluid buildup in people hospitalized with ADHF and cardiorenal syndrome.
This is prospective cohort study with the purpose of improving our understanding of morbidity and mortality risk in patients with heart failure and chronic kidney disease.
To advance our understanding of the mechanisms of human cardiorenal syndrome with emphasis upon the interaction of diuretic therapy and the renal-angiotensin-aldosterone -system and cGMP pathway. The belief is that the chronic AT1 receptor blockade in subjects with compensated CHF and renal dysfunction will improve renal function with increased sodium excretion, glomerular filtration rate and effective renal plasma flow and renal function reserve as compared to the response of placebo-treated subjects.
The objective of this study is to determine the safety and effectiveness of intrarenal administration of brain natriuretic peptide (BNP) in improving renal function as measured by glomerular filtration rate (GFR) and sodium excretion in patients hospitalized with acute congestive heart failure (CHF) and deterioration of kidney function (cardiorenal syndrome).
The Cardiorenal Syndrome during Acute decompensated heart failure (ADHF) with persistent congestion despite high dose IV diuretic therapy is associated with remarkable morbidity, which can include the need for renal dialysis or ultrafiltration, an increased length of stay, and high mortality rates. The aims and purpose of this feasibility clinical research trial are: 1. to evaluate the safety profiles associated with performing negative pressure diuresis for the treatment of hypervolemia associated with the cardiorenal syndrome during ADHF with persistent congestion despite high dose IV diuretic therapy via the investigational JuxtaFlow® System, and 2. to evaluate the effectiveness of the investigational JuxtaFlow System in treatment of hypervolemia associated with ADHF.
Aortix is a circulatory support device for chronic heart failure patients on medical management who have been hospitalized for acute decompensated heart failure (ADHF) and have persistent congestion despite usual medical therapy. Eligible ADHF patients with diuretic resistance (irrespective of ejection fraction) will be enrolled and randomized 1:1 to either the Aortix system or standard of care medical management.
The Aortix CRS Pilot Study: An Evaluation of the Safety and Performance of the Aortix System for Intra-Aortic Mechanical Circulatory Support in Patients with Cardiorenal Syndrome
The purpose of this clinical trial is to see if a new device (SCD) is safe and if it can reduce damage to the kidney enough to allow medications to work to improve heart and kidney function for use in patients that have moderate to severe heart failure and is at least in part due to heart failure and it not responding to standard medical therapy. The SCD is a cartridge used with a commercial hemodialysis unit. Participants will be enrolled in the clinical trial once eligibility is confirmed. In addition to clinical assessments and laboratory testing participants will have surface echocardiograms during the trial. The SCD treatment will take place for 4 hours on day 1, 3, and 5 while on hemodialysis.
The goal of this trial is to evaluate whether subantimicrobial-dose of doxycycline (20mgBID) will affect serum and urine biomarkers of fibrosis in patients with pre-dialysis chronic kidney disease.
The prevalence of renal dysfunction after implantation of the artificial heart is high. The infusion of exogenous B-type natriuretic peptide (BNP) after implantation of the total artificial heart (TAH) improves renal function in a sustained manner. The renal protective and hormone-modulating effects of nesiritide may be enhanced with ventriculectomy compared to heart failure surgery that leaves the native myocardium intact. The goal of this project is to determine the renal protective effects of nesiritide after implantation of a mechanical device.
The purpose of this study is to evaluate the selective cytopheretic device on the immune dysregulated state of congestive heart failure(CHF) with CRS and to assess the benefit of the device to improve cardiovascular and renal function. The study will enroll eligible patients in the ICU with acute on chronic systolic heart failure and worsening renal function due to cardiorenal syndrome while awaiting LVAD implantation. In this study patients who are eligible and agree to participate will receive treatment with the SCD. The treatment will be for 6 hours a day up to 6 days. Additionally, participants will have additional study procedures and be evaluated to determine if their kidney function improves enough to undergo LVAD implantation.
The purpose of this study is to compare high dose furosemide in combination with low volume hypertonic saline solution (2.4%) with intermittent pulse dose furosemide in patients with pre treatment kidney function impairment. The hypothesis is that it will provide effective diuretic response and have a beneficial effect on preservation of renal function as compared to pulse furosemide in patients with pre-treatment renal impairment (GFR \< 60 mL/min).
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.
At present the standard management of fluid overload in patients with congestive heart failure (CHF) involves limiting the intake of salt and water while administering high dose diuretics, often at the cost of deteriorating kidney function. However, another group of researchers has previously shown that intravenously infusing small volumes of concentrated saline during diuretic dosing and liberalizing dietary salt intake while continuing to limit water consumption resulted in improved fluid removal in CHF patients. Furthermore, less deterioration in kidney function, shorter hospitalizations, reduced readmission rates, and even reduced mortality were observed. The present study will examine this novel therapy in a population of 60 patients with underlying severe CHF and kidney dysfunction hospitalized for the management of fluid overload. Half of these patients will receive investigational treatment with concentrated salt infusions and liberalized salt consumption during diuretic therapy. All patients will otherwise receive the standard therapies for heart failure, including restrictions on water consumption. This study will attempt to verify the improvements in clinical endpoints previously described and define the mechanisms of enhanced fluid removal.
Many patients with exacerbations of heart failure have significant concomitant kidney dysfunction. The combination of these two conditions makes pharmacological management difficult. In this study, we plan to randomize patients with heart failure and kidney dysfunction to receive infusions of Natrecor (B-type Natriuretic Peptide)--which may be beneficial to the management of these two diseases--or placebo.