View clinical trials related to Heart Diseases.
Filter by:Congenital heart disease occurs in about 1% of live births and can range from (1) naturally curable conditions that require no treatment to (2) conditions that require multiple immediate operations or refractory severe conditions. In the course of a staged surgical intervention, adhesion formation around the heart and large vessels can occur, and dissection of the adhesion site is required at the time of reoperation. There is a concern that dissection may markedly increase the risk of operation such as prolonged surgical time, cardiovascular injury, and increased blood loss, and medical devices to prevent adhesion formation after operation in the field of pediatric cardiovascular operation are strongly desired in medical settings. The investigational product (BAX602), which has already been manufactured and marketed by Baxter overseas, has been used for open heart surgery as a local hemostatic agent without biological materials in Europe and the US for more than 20 years. However, since it has not been approved in Japan, this randomized controlled study will be conducted in Japan to demonstrate the effect of BAX602 to prevent and reduce adhesion formation between the surface of the heart/large vessels and surrounding tissues in pediatric patients undergoing planned multistage operation for congenital heart disease.
The purpose of this study is to implement and externally validate an inpatient ML algorithm that combines pulse oximetry features for critical congenital heart disease (CCHD) screening.
The goal of this observational study is to learn about the changing over the time of transseptal (TSP) catheterization for catheter ablation of arrhythmias in the left heart. This study aims to investigate if auxiliary tools for TSP catheterization improved the safety and efficacy.
To collect, preserve, and/or distribute annotated biospecimens and associated medical data to institutionally approved, investigator-directed biomedical research to discover and develop new treatments, diagnostics, and preventative methods for specific and complex conditions.
Ischemic heart disease (IHD) leads the global mortality statistics. Atherosclerotic plaques in coronary arteries hallmark IHD, drive hypoxia, and may rupture to result in myocardial infarction (MI) and death of contractile cardiac muscle, which is eventually replaced by a scar. Depending on the extent of the damage, dysbalanced cardiac workload often leads to emergence of heart failure (HF). The atrial appendages, enriched with active endocrine and paracrine cardiac cells, has been characterized to contain cells promising in stimulating cardiac regenerative healing. In this AAMS2 randomized controlled and double-blinded trial, the patient's own tissue from the right atrial appendage (RAA) is for therapy. A piece from the RAA can be safely harvested upon the set-up of the heart and lung machine at the beginning of coronary artery bypass (CABG) surgery. In the AAMS2 trial, a piece of the RAA tissue is processed and utilized as epicardially transplanted atrial appendage micrografts (AAMs) for CABG-support therapy. In our preclinical evaluation, epicardial AAMs transplantation after MI attenuated scarring and improved cardiac function. Proteomics suggested an AAMs-induced glycolytic metabolism, a process associated with an increased regenerative capacity of myocardium. Recently, the safety and feasibility of AAMs therapy was demonstrated in an open-label clinical study. Moreover, as this study suggested increased thickness of the viable myocardium in the scarred area, it also provided the first indication of therapeutic benefit. Based on randomization with estimated enrolment of a total of 50 patients with 1:1 group allocation ratio, the piece of RAA tissue is either perioperatively processed to AAMs or cryostored. The AAMs, embedded in a fibrin matrix gel, are placed on a collaged-based matrix sheet, which is then epicardially sutured in place at the end of CABG surgery. The location is determined by preoperative late gadolinium enhancement cardiac magnetic resonance imaging (LGE-CMRI) to pinpoint the ischemic scar. The controls receive the collagen-based patch, but without the AAMs. Study blood samples, transthoracic echocardiography (TTE), and LGE-CMRI are performed before and at 6-month follow-up after the surgery. The trial's primary endpoints focus on changes in cardiac fibrosis as evaluated by LGE-CMRI and circulating levels of N-terminal prohormone of brain natriuretic peptide (NT-proBNP). Secondary endpoints center on other efficacy parameters, as well as both safety and feasibility of the therapy.
Marker of atrial cardiopathay as apredictor value of ischemic stroke
Anxiety and depression are associated with work disability, lower participation rate in cardiac rehabilitation and unfavourable life style changes following a coronary heart disease (CHD) event. The prevalence of clinically significant symptoms of depression and anxiety in CHD patients has been estimated to 30-50%. Furthermore, depression and anxiety are associated with a significant increased risk of subsequent major adverse cardiovascular events and mortality in CHD patients. Psychological interventions for anxiety and depression in CHD patients have demonstrated small and uncertain effects of symptoms, and no effect on cardiovascular outcomes. Therefore, testing the effectiveness of specific psychological interventions that may affect central mechanisms for cardiovascular outcomes, has been requested. The Attention training (ATT) Study is a randomized controlled trial comparing group-attention training to wait-list control in 64 patients who experience significant anxiety and depression after a CHD event. It will also be explored whether reduction in psychological symptoms is correlated with changes in biological markers with a potential link to cardiovascular outcomes.
Multicenter, prospective, non-randomized, post-market clinical follow-up (PMCF) study to confirm and support the clinical safety and performance of Medical Device Regulations (MDR) with multivessel coronary disease requirements in all the CONSECUTIVE patients treated with (SUPRAFLEX CRUZ).
In this prospective study, the investigators will enroll 154 children with arterial lines to determine the accuracy of pulse oximeters in children with darker skin pigmentation. Studies in adults suggest pulse oximeters may overestimate the true level of oxygenation in the blood as measured directly by co-oximetry. However, pediatric data are relatively limited. This study, which is funded by the FDA through the Stanford-UCSF (University of California San Francisco) Clinical Excellence in Regulatory Science and Innovation (CERSI) Program, will determine if the error/bias is associated with skin pigmentation and whether the error falls outside FDA standards. The broader purpose of the study is to work toward eliminating health disparities.
Consequences of stroke are manyfold but all of them are important factors on the long-term outcomes of rehabilitation, becoming an important health problem with requires health strategies with advanced age. High intensity interval training (HIIT) is an efficient training protocol used in cardiac rehabilitation programs, but owing to the inter-individual variability in physiological responses to training associated to cardiovascular diseases, the exercise dose received by each patient should be closely controlled and individualized to ensure the safety and efficiency of the exercise program. The heart rate variability (HRV) is actually being used for this purpose, as it is closely linked to de parasympathetic nervous system activation. In this way, higher scores in HRV are associated with a good cardiovascular adaptation. The objective of this protocol is to determine the effect of HIIT compared with HRV-guided training on cardiorespiratory fitness, heart rate variability, functional parameters, body composition, quality of life, inflammatory markers, cognitive function, and feasibility, safety and adherence in patients after stroke undertaking an 8-week cardiac rehabilitation program. This will be a cluster-randomized controlled protocol in which patients after stroke will be assigned to an HRV-based training group (HRV-G) or a HIIT-based training group (HIIT-G). HIIT-G will train according to a predefined training program. HRV-G training will depend on the patients' daily HRV. The peak oxygen uptake (VO2peak), endothelial and work parameters, the heart rate variability, the functional parameters, the relative weight and body fat distribution, the quality of life, the inflammatory markers, the cognitive function, and the exercise adherence, feasibility and safety will be considered as the outcomes. It is expected that this HRV-guided training protocol will improve functional performance in the patients after stroke, being more safe, feasible and generating more adherence than HIIT, providing a better strategy to optimize the cardiac rehabilitation interventions.