View clinical trials related to Cardiovascular Diseases.
Filter by:Feasibility Study Informed consent will be obtained using an IRB-approved form. The first 12 consenting patients will be placed in the planned assessment group for feasibility and will not be randomized. These participants will undergo visits and blood draw collection at 3 months. They will be informed of their SomaSignal Test results at baseline and 3 months. Recommendations for any medical management changes will be made based on an understanding of those results. Randomized Study The succeeding 200 participants will be randomized using permuted mixed block randomization, in a 2:1 ratio, i.e., 2 participants to Group 1 (informed of their test results) and 1 participant to Group 2 (uninformed of their test results). At enrollment, and for 6 months thereafter, clinical information will be obtained from each participant's medical records, and/or directly from the participant during procedures, treatments, study-specific visits, and/or follow-up visits. Data collected for the study will have data linkage at SomaLogic, Inc., where data analysis will be done. At baseline and 6-months (+30 days) post-enrollment, patients will undergo a patient visit and blood collection. Blood will be collected as a stand-alone sample collection, or when other ordered lab work is done, or from access lines inserted during a usual or specialized care. Samples will be sent to the Intermountain Central laboratory for clinical testing. A sample will also be processed and shipped to SomaLogic, Inc. for analysis at baseline and 6 months. For the informed arm, the SomaSignal Test reports will be provided at the time they are available (2 to 4 weeks after the blood draw). Any recommended changes in medical management will be recorded in the case report forms and will be verified by the Principal Investigator. For the uninformed arm, the SomaSignal Test results will not be provided to the study team until after the 6-month post-test visit. Adjustments, if any, would be made to the participant's management at that time.
The study aims to investigate the short-term (3 months) and intermediate-term (12 months) safety and preliminary efficacy of stereotactic radiotherapy for pulmonary vein isolation to treat refractory atrial fibrillation.
There is existing data in the literature that suggests an additional predictive value of three dimensional ECG with respect to the presence of electrical abnormalities and for an existing cardiac disease. Especially regarding patients who suffered from a myocardial infarction in the past (post MI patients), evidence has been provided for a potential association of 3D repolarisation abnormalities and incidence of sudden cardiac death (SCD). In addition, there is some vague evidence of so called 3D ECG and prediction of coronary artery disease. This 3D ECG device is using the technology of 3D ECG vector loops and is assessing the variability of these ECG vector loops in the 3-dimensional space. Based on these data, the parameters of 3D ECG are suggested to carry certain value to predict or to identify individuals already suffering from a cardiac disease or being at risk experiencing a cardiac event in the future. In this context we performed a preliminary study with 3D-ECG device in healthy volunteers evaluating the robustness of this method with respect to reproducibility, intra- and intra-observer variability which could be confirmed. We thus postulate that the 3D ECG technology might bear the potential to serve as a sufficient screening method for diagnosing cardiomyopathy in patients with an unknown heart failure etiology.
Recovering blood flow to a coronary stenosis may improve left ventricular (LV) function in patients with coronary artery disease (CAD). However, the reported data about evaluation of LV function post-percutaneous coronary intervention (PCI) in CAD was limited. The aim of this study was to compare the LV function measured by 3 min low dose exercise stress echocardiography (ESE) combined 2D speckle tracking echocardiography (STE) in patients with CAD underwent PCI, and to identify factors affecting the change of LV function. Patients with CAD who underwent acute PCI were enrolled.
This study will examine the impact of cardiac rehabilitation on blood vessel health using a newly developed microfluidic-based tactile sensor to assess blood vessel health. The participants will have their blood vessel health measured using a sensor that is placed on top of the skin over the artery before and after exercise (1, 3, 5, 10, 30 and 60 mins). The investigators will study these responses at the first session of cardiac rehabilitation and following 1 and 4 weeks of cardiac rehabilitation (sessions 3 and 6). The investigators will also collect some information from the medical record regarding: age, gender, body mass index, resting cardiovascular measures (heart rate, blood pressure etc), medications, reasons which qualified the participant into cardiac rehabilitation, blood tests related to heart or cardiovascular function, metabolic panel, lipid panel, echocardiogram results, recorded electrocardiogram, known vascular diseases, presence of implantable devices, Seattle Heart Failure Model data and cardiovascular measures and exercise workloads during cardiac rehabilitation.
The main goal of this project is to constitute a collection of biological samples, obtained through the clinical activity of the Centre for Screening and Prevention of Atherosclerosis at Toulouse University Hospital, managing patients in primary or secondary prevention for cardiovascular (CV) diseases. The main objective is to validate new biomarkers with prognostic value regarding the onset of future CV events. Besides, the biological collection will enable patho-physiological studies on atherosclerosis related diseases.
This randomized controlled trial will evaluate whether use of the PulsePoint system increases bystander CPR or defibrillator use compared to standard dispatch procedures in patients who suffer non-traumatic, out-of-hospital cardiac arrest in a public location. Half of all suspected cardiac arrest 9-1-1 calls in a public location will receive PulsePoint alerts (treatment arm). The other half of this eligible patient cohort will receive standard dispatch procedures (control arm).
This research project has as objective the elaboration and analysis of a new cardiac risk stratification protocol based on clinical and physical variables to predict the occurrence of signs and symptoms during a cardiac rehabilitation program. To this aim, the study will be developed in three stages. The first stage consists of a prospective longitudinal observational study, in which participants of exercise-based cardiac rehabilitation will undergo a physiotherapy evaluation in terms of physical and clinical aspects. After this initial assessment, participants will be followed for 2 months of rehabilitation, when the occurrence of signs and symptoms (chest pain, fatigue, dizziness, arrhythmias, and other minor events) during exercise will be recorded. Based on the data from the initial assessment and the occurrence of signs and symptoms a new cardiac risk stratification protocol will be developed. The second stage of this project consists of another prospective longitudinal observational study in which a new sample of individuals attending cardiac rehabilitation programs will be assessed and stratified for the risk of the occurrence of signs and symptoms during exercise by the new protocol developed. After the risk stratification, this sample will be followed for 2 months and the occurrence of signs and symptoms will be recorded. With this data, the reproducibility and efficacy of the protocol will be evaluated. The third stage of this project consists of a cross-sectional observational study, in which a new sample of participants will be evaluated by two independent physiotherapists for clinical and physical variables, and based on these data will be stratified by the new protocol by the same evaluators independently. After these procedures, the protocol´s agreement between evaluators will be analyzed.
The purpose of the study is to monitor the clinical safety and performance of the EXCOR Venous Cannula in context of an EXCOR VAD therapy to ensure continued acceptability of identified risks, to enable detecting emerging risks and to assess clinical improvement on both short- and long-term.
The primary aim of this research is to explore the adherence and drop-out from early cardiac rehabilitation (CR), to inform interventions to support patient's adherence to CR and facilitate maintenance. The secondary aim is to understand which aspects of CR are essential for improving health-related quality of life in the short and long-term. This research will comprise four stages adopting a mixed-methods, quasi-experimental, repeated measures design.