3,043 Clinical Trials for Various Conditions
A plant-based diet will be utilized in the treatment of coronary artery disease.
Coronary Artery Disease
The purpose of this study, entitled "Psychological trauma, post-traumatic stress disorder, and resilience in adults with congenital heart disease in a large population sample", is to evaluate for exposures during a lifetime with congenital heart disease that may be associated with higher likelihood of developing PTSD. Primary aim: - Identify individual patient characteristics (medical, psychosocial, socioeconomic, etc.) that are associated with a diagnosis of PTSD. Secondary aims: * Calculate the prevalence of those meeting PTSD criteria in the ACHD population using the "gold standard" diagnostic clinician interview, while using the same data to validate a PTSD screening self-report survey in the ACHD population. * Determine the role of resilience in ACHD patients using a validated screening survey to assess its protective role toward PTSD. Hypotheses: * There are certain exposures (e.g. post-surgical pain, ICU delirium, bullying due to CHD) that are associated with a higher incidence and odds of meeting PTSD criteria. * "Gold standard" diagnostic interviews will most accurately estimate the prevalence of PTSD in ACHD which has been overestimated on prior screening-based studies, although the scope of the problem is still great. * Patients with a higher resilience score will show an association with a lower risk of PTSD.
Adult Congenital Heart Disease, Congenital Heart Disease, PTSD
This real-world, international registry aims to evaluate the current experience with sodium-glucose cotransporter 2 inhibitors (SGLT2i) in adult congenital heart disease (ACHD) patients by investigating the prescription patterns, safety, tolerability, and potential beneficial effects on heart failure-related outcomes.
Adult Congenital Heart Disease, Congenital Heart Disease, Systemic Right Ventricle, Transposition of the Great Arteries, Congenitally Corrected Transposition of the Great Arteries, Fontan, Single Ventricle, Tetralogy of Fallot (TOF)
The purpose of this study is to evaluate and compare the effectiveness of active screening for SHD in asymptomatic outpatients referred for an ECG, using a combination of AI-ECG and FOCUS. Invites will be sent and participants enrolled electronically.
Cardiac Disease
Cardiac telerehabilitation is a much-needed pediatric therapy; however, a lack of randomized controlled trials has limited the development of and reimbursement for this valuable service. Through this prospective, randomized controlled trial, the investigators aim to demonstrate the safety and efficacy of PCTR in a clinically diverse population of children and adolescents with heart disease.
Congenital Abnormalities, Pulmonary Arterial Hypertension (PAH), Orthotopic Heart Transplant, Cardiac Rehabilitation, Pediatric Cardiology, Telehealth, Telerehabilitation
Congenital heart disease (CHD) includes a wide variety of types of disease, including congenital abnormalities of the heart valves. This can range from bicuspid aortic valve and other aortic valve deformities to more complex disease such as tetralogy of Fallot. For many kinds of CHD, the optimal timing of interventions remains unclear. For instance, in tetralogy of Fallot, there is still equipoise about when to offer pulmonary valve replacement (PVR), while in aortic regurgitation, some patients can remain stable for many years. The primary focus of this study is to use continuous physiologic data (CPD), obtained using wearable biosensors (a type of biometric monitoring technology), to develop improved biomarkers of disease progression and prognosis from patients with congenital heart disease (CHD) who are pregnant while they are at home as well as looking at patients' experience and interaction with wearable biosensor technology at home.
Congenital Heart Disease, Congenital Vascular Disorder, Congenital Cardiomyopathy, Pregnancy Related
This project aims to validate sex-specific biologic signatures associated with aortic valve disease developed in a large multicenter CMR registry, using unsupervised phenomapping. We aim to use advanced CMR techniques (MRF, DTI, chemical exchange transfer, and radiomics analysis) to determine advanced CMR predictors of reverse remodeling following aortic valve surgery and develop sex-specific thresholds for risk. Infrastructure developed by this study will enable development of an innovative, scalable, sex-specific precision medicine cardiovascular imaging pipeline to determine overall risk and treatment response.
Aortic Regurgitation, Mitral Regurgitation, Aortic Stenosis
Background: Type 2 diabetes is a disease that affects blood sugar levels. Complications can include heart and blood vessel (vascular) diseases. Rates of type 2 diabetes have tripled in children and young adults over the last 40 years. Vascular diseases are also increasing in young people. Objective: To learn more about factors, including type 2 diabetes, that may cause vascular disease in young people. Eligibility: People aged 12 to 25 years who (1) have type 2 diabetes; (2) are overweight but not diabetic; (3) or are lean and healthy. Biological parents are also needed. Design: Young participants will visit the NIH clinic once a year for up to 25 years. Each visit will take 4 days. Before each visit, participants will wear devices to track their sleep, activity, and blood sugar levels for 7 to 10 days. At each visit, participants will have tests including: Samples: They will provide blood, urine, and stool samples. Heart: They will ride a stationary bike for 6 minutes with stickers applied to their chest. Scans: They will lie on a bed that slides into a tube; the machine will take pictures of the inside of their body. Energy: They will wear a hood over their head to measure the air they breathe. Social stress: They will give a speech for 10 minutes to show their body s response to stress. Glucose: They will drink a sweet drink to see how their blood sugar changes. Biological parents will have 1 study visit. They will have blood tests. They will fill in questionnaires about their lifestyle and stress. ...
Obesity, Type 2 Diabetes
The purpose of this study is to determine if a biomarker assay obtained peripartum (1st-3rd trimester and post-partum) in patients with adult congenital heart disease can predict future risk of cardiovascular adverse events and determine if temporal changes in biomarkers levels throughout the peripartum period can provide a better risk prediction compared to samples taken at a single time-point.
Congenital Heart Disease
The goal of this clinical trial is to learn if a virtually-delivered, group-based psychological intervention, called Tuning in to Kids, is feasible and acceptable for parents of children aged 3 to 6 years with congenital heart disease. The main questions this study aims to answer are: * What do parents of children with congenital heart disease think of the Tuning in to Kids intervention? * Is the intervention helpful for parents? * Is the intervention easy for parents to take part in? * Do the researchers find it easy or difficult to deliver the Tuning in to Kids intervention to parents of children with congenital heart disease? Participants will: * Fill out 3 online surveys at home. * Take part in the Tuning in to Kids intervention (which includes six 90-minute, weekly, online group sessions and two booster sessions) or standard cardiac care. * Take part in an interview.
Heart Defects, Congenital, Parenting, Emotion Regulation
The theory-informed digital health intervention, called as "Empower My Congenital Health (EmpowerMyCH)" aims to activate and engage ACHD patients in building confidence toward navigating the adult healthcare system. This tool is built after incorporating the theories of behavior change, gathering inputs from target patients in all stages of its design and implementation. The key features of the tool include a digital medical passport, updated congenital information, community support, and patient stories and advice. The investigators aim to test the acceptability, feasibility, efficacy, and effectiveness of the intervention.
Congenital Heart Disease, Behavior, Health, Quality of Life, Empowerment, Patient, Activation, Patient
Recent retrospective studies have demonstrated differences between pulse oximeter values (SpO2) and measured arterial oxygen saturation (SaO2) in patients identifying as Black or Hispanic. These retrospective studies have limitations because self-reported race is likely not an accurate metric for level of skin pigmentation and the retrospective nature of these studies may impact the accuracy of simultaneous measures of arterial oxygen saturation and pulse oximeter values. The few prospective studies that have evaluated this issue have utilized color-matching techniques to quantify skin pigmentation, and fewer studies have directly measured skin pigmentation in relation it to pulse oximeter accuracy. The aim of this study is to prospectively measure pulse oximeter accuracy in relation to measured levels of skin pigmentation in the congenital heart disease population.
Hypoxemia, Skin Pigment, Congenital Heart Disease
The purpose of this research is to study digital health interventions to prevent cardiovascular disease in individuals who have had a hypertensive disorder of pregnancy (HDP).
Hypertension in Pregnancy, Pre-Eclampsia, Eclampsia, Gestational Hypertension
Friedreich Ataxia is a rare condition that causes damage to the nervous system and muscles. People with Friedreich Ataxia have difficulty walking, lose sensation in their arms and legs, and have slurred speech. It can also affect the heart and many people with Friedrich Ataxia develop serious heart problems. Friedreich Ataxia is a genetic condition which means a faulty gene is passed down through families. This type of gene therapy treats a genetic condition by providing a healthy copy of the gene. At the time this study started, there was no approved treatment for heart problems in people with Friedreich Ataxia. In this study, ASP2016 is being tested in humans for the first time. The people taking part are adults with Friedreich Ataxia who have heart problems. The main aims of the study are to check the safety of ASP2016 and how people cope with (tolerate) ASP2016. ASP2016 is given as a slow injection into a vein. This is called an infusion. People will also take tablets of a medicine called prednisolone. This is taken to stop the immune system interfering with ASP2016. Each person in the study will be given 1 single infusion of ASP2016. Different small groups will receive lower or higher doses of ASP2016. Each person will stay overnight in the clinic for at least 1 night after their infusion. For the first few months, people will visit the clinic regularly. There may be the option of home visits by a study nurse at some visits. At the 6-month and 12-month visits extra tests, procedures, and scans will be done. One of these is an ECHO (echocardiogram) scan. This is like an ultrasound scan for the heart. Another is an endomyocardial biopsy. A tiny piece of their heart tissue is removed (biopsy). A flexible hollow tube (catheter) goes into the blood vessels up to the heart. Then, a small device on the end of the catheter takes a tiny piece of heart tissue (about the size of a pencil tip). Another is a cardiac MRI. This takes pictures of the inside of the heart using a powerful magnet. Another is a cardiopulmonary exercise test (CPET). This involves moving a specially designed set of bicycle pedals using hands and arms. This will check how the lungs, heart and muscles are affected during exercise. After the 12-month visit, people will visit the clinic every few months for up to a few years.
Friedreich Ataxia, Cardiomyopathy
Newborns with congenital heart disease (CHD) are at increased risk of developing postpartum and postoperative blood clots after cardiac surgery. The molecular mechanisms that are responsible for the clotting profile predisposing children to blood clots in the early stages of life are currently not well described. The goal of this proposal is to prospectively collect plasma samples from ten (10) neonates with antenatal diagnosis of severe congenital heart disease (CHD) to better understand mechanisms responsible for abnormal clotting in the perioperative period.
Congenital Heart Disease, Single-ventricle, Thrombosis
The goal of the study is to investigate the feasibility and benefit of novel guideline-directed heart failure therapy drug Empagliflozin (Jardiance) for adult patients with congenital heart disease (ACHD).
Adult Congenital Heart Disease, Heart Failure
VictORION-INCLUSION (V-INCLUSION) seeks to evaluate the effectiveness of inclisiran as an innovative therapy with the potential to help bridge care gaps in historically understudied and undertreated populations by leveraging electronic health records (EHR) in multiple US Healthcare Systems (HCS) to systematically identify those at high risk for and already diagnosed with ASCVD for more expeditious achievement of LDL-C targets.
Atherosclerotic Cardiovascular Disease
This study is enrolling pregnant persons treated at Rady Children's Hospital fetal cardiology program with a prenatal diagnosis of congenital heart disease to look for genetic disorders in the fetus or unborn baby. Congenital heart disease (CHD) is a group of structural differences to the heart that represent the most common birth defect among liveborn infants world-wide. CHD is the leading cause of birth-defect associated infant death. Prenatal detection allows for delivery planning, postnatal repair, specialized medications, and detailed counseling for parents. Up to one in three fetuses with CHD may have a genetic cause. In babies, knowing about genetic diseases helps patients and doctors provide the best care for their babies. If identified prenatally, this same knowledge may help participants prepare for their location of delivery, meet with specialists, and consider specialized treatments and medications that may be appropriate. The diagnostic yield and clinical utility of whole genome sequencing (WGS) in fetuses with prenatally detected congenital heart disease (CHD) will be compared to routine clinical testing in patients choosing amniocentesis or chorionic villus sampling. DNA will be obtained from fetal samples and biological parent blood samples and analyzed according to standard clinical interpretation guidelines. Results will be reported to healthcare providers and patients and measures of clinical utility will be collected. Additionally, measures of stress, anxiety, depression, and perceived utility of information will be assessed by validated survey tools. A historical cohort of patients electing for diagnostic procedures will be used as a comparison population.
Congenital Heart Disease
Babies with single ventricle congenital heart disease (SVCHD) are often diagnosed during pregnancy. While prenatal diagnosis has important clinical benefits, it is often stressful and overwhelming for parents, and many express a need for psychological support. HeartGPS is a psychological intervention for parents who receive their baby's diagnosis of SVCHD during pregnancy. It includes 8 sessions with a psychologist, coupled with tailored educational resources, and a personalized care plan. The intervention focuses on fostering parent psychological adjustment and wellbeing, and supporting parents to bond with their baby in ways that feel right for them. Through this study, the investigators will learn if HeartGPS is useful and effective for parents and their babies when it is offered in addition to usual fetal cardiac care. The investigators will examine the effects of the HeartGPS intervention on parental anxiety, depression, and traumatic stress; fetal and infant brain development; parent-infant bonding; and infant neurobehavioral and neurodevelopmental outcomes. The investigators will also explore mechanisms associated with stress biology during pregnancy, infant brain development and neurodevelopmental outcomes, and parent and infant intervention effects.
Heart Defects, Congenital, Anxiety in Pregnancy, Depression, Postpartum, Trauma, Psychological, Neurodevelopmental Disorders
The goal of this clinical trial is to compare 2 different timepoints for clamping the umbilical cord at birth for term-born infants with a prenatal diagnosis of congenital heart disease (CHD). The main questions it aims to answer are: * Does Delayed Cord Clamping at 120 seconds (DCC-120) or Delayed Cord Clamping at 30 seconds (DCC-30) after birth lead to better health outcomes? * Does DCC-120 seconds or DCC-30 seconds after birth lead to better neuromotor outcomes at 22-26 months of infant age (postnatal)? Participants will be asked to do the following: * Participate in either DCC-120 or DCC-30 at birth (randomized assignment). * Complete General Movements Assessment (GMA) at 3-4 months of infant age (postnatal), complete questionnaires / surveys at this time. * Complete questionnaires / surveys at 9-12 months of infant age (postnatal). * Complete Hammersmith Infant Neurological Examination (HINE), Developmental Assessment of Young Children 2 Edition (DAYC-2), and questionnaires / surveys at 22-26 months of infant age (postnatal). * Permit data collection from electronic medical records for both the mother and infant study participants. Investigators will compare DCC-120 vs. DCC-30 to see which approach is more beneficial to both the mother and baby with CHD.
Congenital Heart Disease (CHD)
Background/aim: Endothelial function is closely associated with coronary artery health among individuals being treated for heart disease. An impairment in endothelial function promotes arterial stiffening that directly contributes to elevated systolic blood pressure as a result of increased vascular resistance. Inspiratory muscle training is simply a form of training consisting of repeated inspirations against resistance. Inspiratory muscle training has also been applied to patients with chronic disease or as an additional therapy for cardiac rehabilitation and it has proven to be safe in these groups. Few studies in the literature examined the effects of high-intensity inspiratory muscle training in this population, however, these studies did not examine the direct effects of inspiratory muscle training on vascular function. To the best of our knowledge, the effects of inspiratory muscle training in patients with heart disease on endothelial function and arterial stiffness prior to starting cardiac rehabilitation have not been investigated. This study aims to investigate and interpret whether high-intensity inspiratory muscle training, beyond the usual care of heart disease, improves endothelial function and arterial stiffness. Methods: The study was designed as a randomized controlled trial. Patients will be allocated for inspiratory muscle training (IMT) with 60% of maximum inspiratory pressure (MIP) or sham inspiratory muscle training (Sham-control), for 4 weeks. In both groups, before and after 4-week training, cardiovascular functions will be measured and compared.
Coronary Artery Bypass Graft, CABG
This Phase 2a clinical trial will evaluate the effectiveness, safety, and tolerability of increasing dose strengths of an oral daily medication, DFV890, administered for 12 weeks, or a single s.c. dose of MAS825, to reduce key markers of inflammation related to CVD risk, such as IL-6 and IL-18, in approximately 28 people with known coronary heart disease and TET2 or DNMT3A CHIP (VAF ≥2%).
Coronary Heart Disease, Clonal Hematopoiesis of Indeterminate Potential (CHIP)
The Short-Cut trial is a prospective, investigator-initiated, multicenter, randomized controlled trial that is designed to compare the efficacy of cutting balloon angioplasty vs. intravascular lithotripsy prior to drug-eluting stent implantation in patients with moderate to severely calcified coronary arteries.
Treatment in Calcified Coronary Disease
This Phase 2a clinical trial will evaluate the effectiveness, safety, and tolerability of increasing dose strengths of an oral daily medication, DFV890, administered for 12 weeks, to reduce key markers of inflammation related to CVD risk, such as IL-6 and IL-18, in approximately 24 people with known heart disease and an elevated marker of inflammation, hsCRP.
Coronary Heart Disease
The goal of this randomized controlled trial is to evaluate the effectiveness of video conferencing for the delivery of live-supervised, real-time cardiac rehabilitation (CR) exercise training to groups of adolescents with congenital heart disease (CHD) in their homes. Participants will be randomized to either the remote cardiac rehab (RCR) group or active control group. The RCR group will participate in live, group-based exercise training (3-5 participants per exercise session), in their homes 3 days per week for 45 minutes over 12-weeks. Exercise sessions will be led and supervised by a live health coach via telehealth video technology. The active control group will be provided informational handouts on health exercise for their cardiac diagnosis. The primary aim is to compare between group changes (0-12-weeks) in cardiorespiratory fitness (VO2peak). Secondary aims are to compare between group changes (0-12-weeks) in cardiac function (echocardiography), lean body mass, and physical frailty. Exploratory aims will compare between group changes (0-12-weeks) in physical function, quality of life, skeletal muscle function, and physical activity self-efficacy. Additionally, exploratory aims will explore the impact of demographic characteristics, program participation, program satisfaction, and daily physical activity on changes in cardiorespiratory fitness.
Congenital Heart Disease in Children
The Congenital Heart Disease Physical Activity Lifestyle Intervention Study (CHD-PALS) V.2 seeks to determine the efficacy of a lifestyle intervention program for adolescents and young adults (AYAs) with congenital heart disease (CHD). This trial was adapted from the original CHD-PAL trial to continue improving cardiovascular outcomes for transition-aged CHD survivors.
Heart Defects, Congenital, Cardiovascular Disease Other
The purpose of this study is to learn about the natural progression of DCM (dilated cardiomyopathy) caused by BAG3 gene mutations. DCM is a condition as the heart muscle is weakened and the heart becomes enlarged. This makes it hard for the heart to pump enough blood for the body. The study is seeking up to about 35 participants who have: * BAG3 mutation (change in the gene) that causes or is likely to cause dilated cardiomyopathy * NYHA (New York Heart Association) Class I-IV at screening (Stage B-D) * Left Ventricular Ejection Fraction less than or equal to 50% (meaning reduced heart function) All participants in this study will receive their usual treatment. The investigators will observe the natural progression of people who have BAG3 DCM. This will help the investigators better understand the disease and aid in future research. Participants will take part in this study for one year. During this time, participants will visit the site at least 4 times (about every 3 months). Participants will undergo study procedures and give information about their health. These procedures will include a physical exam, cardiac magnetic resonance imaging, echocardiography, ECG monitoring, activity monitoring, cardiopulmonary exercise testing, and blood tests. Participants will answer questions about health and quality of life. The study team will also call participants about 1 time over the phone.
Cardiomyopathy, Dilated, Bcl-2 Anathogene-3 (BAG3) Dilated Cardiomyopathy (DCM)
The goal is to compare patients with and without varying severity of pulmonary vascular disease based upon hemodynamic signatures, echocardiographic measures, and lung ultrasound, in tandem with expired gas metabolic testing and blood sampling.
Pulmonary Hypertension, Pulmonary Vascular Disease, Left Heart Disease
The goal of this study is to pilot the "support tool" in the Nemours Cardiac Center to assess acceptability and feasibility. This tool will be offered to 5 high-risk families, and they will be asked to complete a survey. In addition, healthcare providers including bed-side nurses and cardiologists will be asked to complete a survey to assess the feasibility of the tool.
Heart Disease Congenital
The proposed study includes a newborn developmental intervention to improve neurodevelopmental (ND) and medical outcomes for infants with congenital heart disease (CHD) with improved parent well-being. Literature documents long-term ND disabilities for children with CHD, caused by the negative effects of the hospital environment on the developing newborn brain. The cardiac intensive care unit (CICU), while necessary to save the life of the infant with CHD, exposes infants to overwhelming stress through painful procedures, invasive lines and tubes, toxic sensory stimulation, and separation from family. The combination of these negative experiences disrupts the infant's brain maturation and subsequent neurodevelopment. Individualized developmental care (IDC) is an intervention that minimizes the mismatch between infant neurobiological needs and the harsh hospital environment, thereby diminishing the frequency and severity of adverse effects. Core components of IDC include support for parent engagement, caregiving provided in a way to reduce infant stress, providing a soothing environment and appropriately positioning to enhance musculoskeletal and motor development. Research shows that IDC improves outcomes for preterm infants with enhanced brain structure and function, cognitive skills, executive functioning, behavioral outcomes, and family satisfaction from infancy to school age. Despite all the positive evidence for IDC, my past research showed most CICUs do not implement IDC due to lack of staff education and no evidence supporting IDC in CHD. The investigators propose the first randomized controlled trial to evaluate the efficacy of IDR as an intervention for children with CHD. The investigators hypothesize infants receiving IDC provided in the hospital, compared to those not receiving IDC, will show improved medical outcomes (including shorter hospital stay, improved oral feeding, increased growth), improved developmental competence, and increased parent coping at the time of discharge home and 3 months after discharge. With support from the Children's Heart Foundation, the investigators can demonstrate the feasibility and safety of implementing IDC in the CICU, the potential to improve the ND outcome for infants with CHD and increase parent well-being. This study would serve as the needed pilot study to request funding for a larger multicenter trial which would impact CICU care of infants with CHD and their families around the world.
Cardiology, Infant Development, Development Delay