View clinical trials related to Cardiovascular Diseases.
Filter by:Studies have shown that the risk of developing heart arrhythmias, is increased in patients receiving medication for Attention-deficit hyperactivity disorder (ADHD) and depression. The QT-interval on a electrocardiogram (ECG) is often used to assess the patients risk of developing heart arrhythmias. The QT-interval defines the hearts electrical resting period and a long interval is linked to an increased risk of developing heart arrhythmias. In this project the investigators wish to examine possible side-effects in patients receiving medication for ADHD and depression and their dynamic QT-interval changes, by analysing the ECG changes that occur during "Brisk Standing".
Cardiovascular disease (CVD) is the largest concerns for patients with Chronic kidney disease (CKD). At present time the investigators do not have proven effective strategies to reduce high CVD related deaths in CKD. This study assesses a novel therapy (hydroxychloroquine, HCQ) for the treatment of CVD in patients with CKD. This is the first human proof-of-concept study and is planned to be conducted among US Veterans, who suffer from both CKD and CVD at a disproportionately greater rates. The outcome of this study has the potential to provide an entirely new line of therapy for the treatment of CVD in CKD.
Mucopolysaccharidoses (MPS) are multisystemic diseases with significant clinical overlap between their types, with cardiac problems being among the most commonly observed manifestations and are also among the main causes of mortality in these patients. For some of the cardiovascular manifestations, such as aortic root dilation and valve diseases, there is no effective treatment currently available. Losartan, on the other hand, has been shown to be an effective drug for dilation of the aortic root, at least in animal models. This study aims to evaluate the safety and efficacy of losartan in patients with MPS VI and other mucopolysaccharidoses.
Numerous studies show that regular physical activity / exercise significantly improves exercise tolerance as well as clinical outcomes in cardiovascular disease (CVD). Exercise as a reliable adjunctive intervention, however, remains limited due to poor short- as well as long-term adherence. The study examines the effectiveness of the peer-led Heart Exercise And Resistance Training - Peer Lead ActivitY (HEART-PLAY) intervention to significantly sustain exercise adherence among CR patients, as compared a standard CR intervention. In a rigorous cluster randomized controlled trial at the UCSD Step Family Cardiovascular Rehabilitation and Wellness Center, the study assesses the HEART-PLAY intervention program in 264 socioeconomically and ethnically diverse women and men 18+ years old who have been referred to standard CR. Participants in the HEART-PLAY and in the STANDARD CR programs will both participate in 36 sessions of CR across approximately 12 weeks, as prescribed by their physician. Participants in HEART-PLAY will additionally receive peer and staff leadership, self-monitoring tools and feedback, group education and materials, and motivational, goal-setting, and relapse prevention counseling sessions. The study will demonstrate that the peer-led HEART-PLAY program based in the clinic setting will significantly enhance the primary study endpoint of adherence to 150 min/week of moderate physical activity/week.
Title: Effects of oral antioxidant cocktail on vascular function and muscle function in cardiovascular disease patients Cardiovascular disease (CVD) generally refers to various conditions involving narrowed or blocked dysfunctional blood vessels that often lead to heart attack or stroke. One of the main contributors to blood vessel dysfunction is damage to the vascular endothelium. This often results from the accumulation of oxidative stress (OS) and inflammation due to a decrease in blood flow and oxygen transport to the body's organs and skeletal muscle. The body's natural antioxidant defense system cannot keep up with the high level of OS clearance necessary to maintain proper vascular homeostasis. Previous research has addressed the use of single antioxidants (e.g. vitamin E, beta-carotene, ascorbic acid) in CVD patients, but the use of a combination of antioxidants has yet to be examined. Therefore, the purpose of this study is to examine the effects of acute oral antioxidant cocktail administration (containing vitamin C, E, and alpha-lipoic acid) on oxidative stress, vascular function, autonomic function (heart rate variability), leg blood flow, leg muscle tissue oxygenation, and walking capacity in CVD patients. This is a parallel study design that will assess the effects of oral antioxidant cocktail administration on CVD patients ages 50-85. Subjects will be required to visit the lab 1 time. This visit will consist of 1) obtaining informed consent and questions, 2) baseline blood sampling and baseline measurements of endothelial function, arterial stiffness, autonomic function (heart rate variability), leg blood flow, leg muscle oxygenation, and a walking test, 3) first dose oral antioxidant cocktail administration followed by a 2-hour break, 4) second dose oral antioxidant cocktail 30 minutes after the first dose, 5) post-consumption blood sampling and measurements of endothelial function, arterial stiffness, autonomic function (heart rate variability), leg blood flow, leg muscle oxygenation, and a walking test.
This is an early feasibility, non-randomized, open-label, single group, interventional study to be conducted in up to 20 US subjects to evaluate the technical feasibility of the Durablate Catheter and Thermedical Ablation System to eliminate or control sustained, monomorphic ventricular tachycardia (VT) in patients with VT refractory to drug and conventional catheter ablation with acceptable procedural safety.
This is a phase IV, randomized (1:1), prospective, double-blind, placebo controlled, parallel-group, single center study at the Clinical Research Unit (CRC) of the Department of Nephrology and Hypertension, with its two separate locations: - Nürnberg, Kreuzburger Str. 2, 90471 Nürnberg, and - Erlangen, Ulmenweg 18, 91054 Erlangen The results of this study provide strong support for the concept that it is lower LDL-C levels that is key to achieving better outcomes, and that it is possible to achieve these on top of statin therapy (despite the much debated potential "pleiotropic" effects of statins). At least 65 patients will be randomized (1:1) and included (informed consent) in order to obtain 58 fully evaluable subjects (29 with evolocumab, 29 with placebo). Patients will be simultaneously recruited from investigator's outpatient clinics, referring physicians, and advertisement in local newspapers, and social media. Those patients that appear to potentially fulfill the inclusion criteria will be invited to a screening visit. After providing informed consent, patients will be tested for inclusion/exclusion criteria and for feasibility of vascular measurements (in particular to ensure that adequate imaging of the brachial artery is possible). Patients will provide a blood sample for laboratory testing. If the patient then fulfills inclusion criteria and in the absence of exclusion criteria, the patient will be enrolled into the trial, and the study visits will be scheduled. Randomization will take place at the latest one day prior to the study visit 2 (e.g. at the latest at visit 2a). At visit 2, baseline vascular function parameters will be obtained and the patient will be given an SC injection of the study drug (either SC 420 mg evolocumab or SC placebo). At visit 4, the second injection of study drug will be administered. After 1, 4 and 8 weeks of treatment (visits 3, 4 and 5), testing of vascular function will be repeated. At visit 6, a final close out visits will be performed to gather additional safety information.
Study ROR-PH-301, ADVANCE OUTCOMES, is designed to assess the efficacy and safety of ralinepag when added to pulmonary arterial hypertension (PAH) standard of care or PAH-specific background therapy in subjects with World Health Organization (WHO) Group 1 PAH.
This is a first-in-human, randomized, double-blind, placebo-controlled, single ascending dose study in subjects with elevated plasma Lipoprotein(a) [Lp(a)]. AMG 890 will be evaluated in approximately 80 subjects to assess safety, tolerability, pharmacokinetics and pharmacodynamic effects.
Brief Summary: Current U.S. Veteran demographics reveal an aging population with significant cardiovascular dysfunction. This ultimately manifests as mobility limitation, inactivity, and a subsequent worsening of cardiovascular disease (CVD) that often leads to death. However, despite this clear negative cycle of events, there is not a single clinically accepted, and therefore routinely utilized, method of assessing vascular health. As nitric oxide (NO) is anti-atherogenic and cardioprotective, identifying an in vivo bioassay of NO bioavailability has significant worth in this arena. Fueled predominantly by the VA Merit Award prior to this renewal application, single passive leg movement (sPLM) and the subsequent blood flow increase, measured non-invasively by ultrasound Doppler in the common femoral artery, is emerging as a method by which vascular endothelial function and therefore NO bioavailability can be determined. However, although this work has yielded an initial characterization of sPLM and established this method to be a novel, valid, and a clinically relevant approach to determine vascular health, further understanding of the sPLM response with advancing age and, ultimately, its implementation and assessment in both rehabilitation and clinical arenas is still necessary. With the growing interest in personalized medicine, the development of tools, such as sPLM, that allow individualized assessments to guide the physician, the patient, and the rehabilitative team, are essential. Therefore, two specific aims are proposed that will address the Central Hypothesis that the sPLM paradigm provides a clinically meaningful assessment of endothelial function. First, cardiac rehabilitation will be assessed by sPLM in the elderly, and, coupled with studies in the young, will elucidate the predominant pathways responsible for the change in endothelial function with aging and rehabilitation. Second, the CVD diagnostic value of the sPLM assessment of endothelial function will be evaluated relative to classic measures and markers of subclinical disease in order accelerate the inclusion of endothelial dysfunction as a CVD risk factor. The proposed studies aim to catalyze the transition of the assessment of endothelial function by sPLM from research to clinical practice.