View clinical trials related to Heart Diseases.
Filter by:Exercise interventions alone or as a component of a comprehensive cardiac rehabilitation program for patients with heart failure (HFrEF and HFpEF) have already shown to reduce the risk of hospitalisations due to HF and improved exercise capacity and health-related quality of life. Two meta-analyses have confirmed the beneficial effects in cardiorespiratory fitness and quality of life. The effects of exercise training on systolic and diastolic function remain inconclusive. Due to the positive results of exercise training in HFpEF, cardiac rehabilitation is recommended (Class I, level A) to be integrated into the overall provision of HF care. However, none of these studies focused on concomitant PH in HFpEF. Exercise training in patients with pulmonary hypertension has already shown to improve exercise capacity, quality of life and peak oxygen consumption, which was confirmed by three meta-analyses and a Cochrane review. Though different diagnostic subgroups have already been enrolled in PH exercise training studies, they mainly included pulmonary arterial hypertension and chronic thromboembolic pulmonary hypertension. Data on combined PH and HFpEF is still lacking. As recently pointed out by Arena et al. there may thus be an exercise training volume/intensity which may be detrimental to the RV in patients with HF and concomitant PH. This study is sought to investigate whether a specialized training program is safe and tolerable and may improve exercise capacity, quality of life, hemodynamics, diastolic dysfunction and biomarkers in patients with PH and HFpEF.
Adverse drug events (ADE) are common and dangerous in the hospital and following discharge to the ambulatory setting. One cause of ADEs in both settings is medication regimen inappropriateness, including polypharmacy, drug-drug interactions, and medications that are inappropriate or inappropriately dosed given patients' age, renal, and hepatic function. Hospitalization provides a good opportunity to investigate medication appropriateness given new or worsening conditions and available expertise. Inpatient pharmacists are medication experts and often round with medical teams, but they may not always have all the information available at their fingertips to make optimal recommendations regarding medication appropriateness for each patient. Clinical decision support to pharmacists at the point of care has potential to improve the speed, quantity, and quality of medication recommendations to inpatient teams; any subsequent improvements to medication regimen appropriateness have the potential to reduce ADEs in the hospital and after discharge. Specific Aims and Objectives Aim 1: Implement real-time decision support regarding medication regimen appropriateness among pharmacists who round with inpatient medical teams. Aim 2: Determine the effects of this intervention on the number of medication regimen recommendations and time spent per recommendation Aim 3: Evaluate the use and usability of the decision support tool and develop strategies to mitigate barriers and promote facilitators of implementation using mixed methods implementation science approaches.
Introduction: The use of a nutritional protocols provides the standardization of assessment procedures and the optimization of nutritional status recovery of pre-surgical infants with Congenital Heart Disease (CHD). However, to our knowledge there are no validated instrument for presurgical nutritional support for infants with congenital heart disease (CHD) in Brazil. Objective: Assess the clinical effectiveness of the translated and cross-culturally adapted protocol, Nutritional Pathway for Infants with Congenital Heart Disease before Surgery (Marino et al., 2018), on the weight change of infants with congenital heart disease in two specialized cardiology hospitals in Southern Brazil in partnership with the UK research group that authored the original of protocol. Methods: A randomized, pragmatic clinical trial will be carried out. The sample will consist of children with CHD, between 0-12 months of age, awaiting cardiovascular corrective surgery from the Pediatric Outpatient Clinic in the Institute of Cardiology (IC) and Children's Hospital Santo Antonio of Santa Casa de Misericordia. The previously translated pre-surgical nutritional intervention protocol for infants with congenital heart disease will be compared with current routine nutritional guidelines used in the follow-up services of children with congenital heart disease in these institutions within the national public healthcare, SUS. Intended results: It is expected that the culturally-adapted pre-surgical nutritional support protocol for children with congenital heart disease will be effective in pre-surgical infant weight gain, which will likely improve surgical prognosis and clinical outcomes. And we hope that this protocol will promote the standardization of care, and will provide an empirically-based nutritional intervention that may improve the effectiveness of nutritional recovery in the CHD infants. Furthermore, the results may be used in the formulation of Brazilian guidelines for comprehensive care of children with congenital heart disease.
Patients with various cardiac conditions (such as those who experience a heart attack) are increasing in Canada and are in need of appropriate cardiac rehabilitation and care. Many patients do not have access to local in-person cardiac clinics, particularly in rural regions of Canada. A user-friendly digital application with accessible educational resources and recommendations based on the most up to date clinical practice guidelines can help mitigate these issues. VIRTUES is a digital healthcare application that targets 11 modifiable modules as follows: 1. antithrombotic management 2. lipid management 3. rate and rhythm control for atrial fibrillation 4. heart failure care 5. post myocardial infarction care 6. blood sugar management 7. blood pressure management 8. physical activity 9. healthy eating 10. smoking cessation 11. alcohol reduction Of the 11 total modules, the first 7 listed provide recommendations in VIRTUES. The remaining 4 (physical activity, healthy eating, smoking cessation and alcohol reduction) consist of simple referrals to existing recommendations (i.e., for healthy eating and physical exercise) and referrals to existing local programs (i.e., for smoking cessation and alcohol reduction). Thus, in this cohort study, the investigators will test the primary 7 modules with 200 patients per module for approximately one month each in order to obtain feedback on the usability of each module. The investigators will also conduct virtual focus group discussions to obtain open ended feedback on the application. This study will provide valuable feedback, which will be used to improve and adapt the VIRTUES application.
Aim of the work: To describe the clinical patterns criteria of infants and children with cardiac disease admitted to PICU and their outcome.
The primary objective of this study is to determine whether coronary computed tomography angiography (CCTA) -based coronary heart disease(CHD) prevention strategy will be superior to traditional CHD prevention strategy, in reducing the future risk of CHD which included myocardial infarction, angina, cardiac death, and an emergency/urgent coronary revascularisation procedure, in a community population aged 40 to 69 years with cardiovascular risk factors but no history of cardiovascular disease.
Robotic surgery is one of the most popular minimally invasive procedures for patients with coronary artery disease or valvular diseases. Studies have shown that, as compared to conventional sternotomy, patients underwent robot-assisted bypass grafting or valvuloplasty had less post-operation pain, blood transfusion volume during operation, re-operation rate, post-operation stroke rate and length of hospitalization. However, most studies focused on the comparison of complications of different procedures, and the investigation of cardiopulmonary function recovery is still lacking. Thus our study is to compare the functional outcomes between patients that undergo different surgical procedures.
Safety and performance evaluation of the NeoChord Transcatheter Mitral Repair System in patients with degenerative mitral valve regurgitation.
Background: Doctors use computed tomography (CT) to get detailed pictures of the heart. CT uses x-rays to gather raw data. Computers assemble this data to make the images doctors look at. A new computer technique can make higher resolution images from the same CT scans. In this natural history study, researchers will take normal CT images of the heart. They will compare those images to super high-resolution (super high-res) images made with a super-computer. Objective: To improve the quality of heart CT scans by using new methods to create the images. Eligibility: People aged 18 years or older who need a CT scan for heart disease. Design: Participants will have a normal CT scan. A substance will be injected through a tube in their arm. They will lie on a table in a large, donut-shaped machine. An X-ray tube will move around their body, taking many pictures. Researchers will use the normal CT scans to create super high-res images. They may do this at the NIH. They may also send the images to the company that made the CT scanner. Participants personal information will be removed before images are sent to the company. The personal information will be replaced by a code. The super high-res images will be returned to the NIH. Some information will be collected from participants medical records. Researchers will compare the normal scans to the super high-res images. Participants' own doctors will also have a chance to see the super high-res images. Participants' CT pictures will be stored and used for future NIH research.
Congenital heart disease is the most common birth defect affecting mostly 1 in 100 births(1), critical congenital heart disease is when there is low systemic cardiac output which requires urgent surgery or catheter intervention in the first year of life(2), in low-income countries CCHD is associated with severe high mortality rate due to low health resources, in high-income countries, CCHD is associated with life-long morbidities and a high burden on the health care systems(1-3)