12 Clinical Trials for Various Conditions
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.
The purpose of this study is to evaluate the safety, tolerability and the pharmacodynamics (PD) of AZD4144 following oral administration in participants with atherosclerotic cardiovascular disease (ASCVD) and chronic kidney disease (CKD).
This study will be a prospective randomized implementation trial for patients hospitalized with heart failure, chronic kidney disease, and/or type 2 diabetes mellitus within Duke University Medical Center. The primary hypothesis is that a virtual quality improvement-based consult intervention will improve the rate of in-hospital evidence-based cardio-renal-metabolic medication use, particularly SGLT2 inhibitor therapy. Approximately 200 patients meeting eligibility criteria will be included in the study. Patients will be assigned into study groups, as defined by randomization of their treating clinician team to receiving the virtual consult versus not.
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.
High-resistance, short-duration inspiratory muscle strength training (IMST) is a novel lifestyle intervention involving 30 inhalations against a resistive load which requires only \~5 min/day and is thus ideal for youth with T2D (Y-T2D). We seek to 1: assess changes in casual and 24-hr SBP, endothelial function, and arterial stiffness after 3 months of IMST vs. sham training in Y-T2D, 2: Define changes in eGFR andalbuminuria after 3 months of IMST vs. sham in Y-T2D, 3: Interrogate mechanisms of IMST by translational assessments of NO bioavailability, endothelial NO synthase (eNOS) activation, and ROS/oxidative stress, and determine the role of circulating factors.
Several drugs have been labeled as guideline-directed-medical therapies (GDMT) to improve overall health outcomes and slow the progression of disease in patients with heart failure (HF). Although scientific trials have deemed these drugs to be successful, many HF patients have been unable to either get started on the appropriate drug regimens or be optimized on the doses required to show substantial benefit, particularly in those who also suffer from chronic kidney disease (CKD). This is largely due to the current health care delivery model that requires a primary care clinician or general internist to refer patients to heart failure specialists and nephrologists. The specialty care itself then requires even more coordination resulting in patients getting lost to follow-up, physicians losing track of recommendations from different clinics, and too many separate electronic medical documentations to consolidate prior to deciding on what medication is appropriate at one thirty-minute outpatient visit. This study plans to create a new, virtual cardio-renal multidisciplinary team including a heart failure specialist and nephrologist to ease the coordination of care and consequently show a better implementation of GDMT in patients with HF and CKD when comparing those rates to the traditional referral-based way that these medications get prescribed.
This study will evaluate providing fruits and vegetables in a sustainable community care clinic setting, in addition to routine medical care, to individuals with CKD (Stage 2-4) on CKD and CVD risk, or cardio-renal risk factors. Further, metabolomics profiling will be used to study how change in the diet affects disease risk. Data from this study will be published in peer-reviewed journals, presented at national conferences, and will serve as pilot data to guide and strengthen applications for NIH funding.
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.
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.
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.
Remote Ischemic Preconditioning (RIPC) is a treatment that may be associated with improved outcomes after cardiac surgery. It can be elicited noninvasively by using a tourniquet to elicit transient ischemia over a lower extremity. It is thought to promote anti-inflammatory and cell survival pathways, and thus protect remote organs against future ischemic injury. We hypothesize that compared to sham treatment, RIPC will be associated with decreased post-operative acute kidney, myocardial, and lung injury.
Inactivity is a common problem among older kidney transplant recipients (KTRs) and is associated with their high incidence of obesity and cardiovascular problems which are the leading cause of death for KTRs. However, the combination of SystemCHANGE activity trackers holds promise for increasing physical activity of KTR patients post-surgery. This pilot study will incorporate Fitbit health trackers with an intervention of questions about influences to physical activity in a population of kidney transplant recipients who are at particularly high risk of cardiovascular disease and death.