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NCT06690151
Congenital heart defects (CHD), as the leading cause of birth defects, affect 12 million people globally and approximately 41,000 newborns each year in Europe. CHD presents a significant public health concern due to its association with high morbidity and mortality rates across the lifespan. Over 50% of infants born with critical CHD will develop neurodevelopmental disorders (NDD), requiring specialized care and impacting their quality of life. NDDs, involving early and persistent disruptions in cognitive, emotional, and behavioral development due to abnormal brain development, are highly variable. They may impact language, learning, motor skills, intellectual efficiency, social cognition, attention, memory, and executive functions, often accompanied by psychosocial difficulties. These hidden disabilities constitute the primary long-term sequelae of CHD, surpassing even cardiovascular complications in impact, and affect children who often undergo multiple cardiac surgeries during early childhood. NDDs are associated not only with complex CHDs but also with simpler CHDs that are repaired in early childhood and considered 'cured.' The origin of CHD-associated NDDs remains largely unknown. While few genetic or environmental causes have been identified, recent research suggests a possible common origin linking heart malformations and neurodevelopmental abnormalities. The CATAMARAN neonatal cohort project aims to detect developmental delays associated with CHD as early as six months of age and to identify both individual susceptibility factors and acquired vulnerabilities contributing to the development of NDDs in infants with CHD.
NCT07479654
The goal of this three-year mixed-methods observational study with an embedded randomized controlled trial is to develop and validate a frailty risk prediction model and evaluate an artificial intelligence-based voice emotion detection-guided counselling intervention in adults with congenital heart disease (ACHD). The main questions it aims to answer are: Are symptom clusters associated with frailty and psychological outcomes in adults with congenital heart disease? Can symptom clusters and psychosocial factors be used to predict frailty risk over time in ACHD patients? Does an AI-based voice emotion detection-guided counselling intervention improve psychological outcomes, fatigue, and quality of life among high-risk ACHD patients? Researchers will compare ACHD patients receiving AI-based voice emotion detection-guided counselling with those receiving usual care to determine whether the intervention reduces depression, anxiety, sleep disturbance, fatigue, and frailty risk, and improves grit and quality of life. Participants will: Complete longitudinal assessments of symptom clusters, frailty, and psychological status at baseline and follow-up time points Participate in qualitative interviews to explore lived experiences related to symptoms and frailty Receive AI-based voice emotion detection-guided counselling (intervention group only in Year 3)
NCT07408583
The investigators aim to evaluate the safety and efficacy of in utero hematopoietic stem cell transplantation (IUHSCT) for the treatment of fetuses diagnosed with Fanconi anemia (FA) during pregnancy.
NCT06809049
The goal of this interventional study is to demonstrate the feasibility and tolerability of music and movement intervention for children with congenital DM1, while providing indications of its effectiveness in improving brain and heart symptoms of DM1. Additionally, information from the collection of biological samples and wearable devices (accelerometer, EEG headband and ECG chest strap) will be used to identify brain-heart biomarkers and outcome measures for use in future research and trials. Researchers will compare the results of physical and cognitive assessments for each participant to assessments from baseline after 10 weeks of weekly music sessions. Qualitative measures (questionnaires and focus groups) will inform the feasibility of this intervention for this population. The main questions this study aims to answer are: * Are weekly music education sessions feasible for children with DM1? * Are weekly music education sessions tolerable for children with DM1? Participants will: * Attend 45-minute-long music sessions once weekly for 10 weeks. * Attend two clinic visits for cognitive and physical assessments. * Provide blood, saliva, stool and urine samples. * Use wearable devices both at-home and during music sessions. * Parents/caregivers of participants will complete questionnaires and participate in three focus groups. Progression from feasibility study to a full-scale clinical trial will be informed by four progression criteria: 1. The feasibility of attendance, as assessed by attendance rate to 10 music sessions (≥ 60%) 2. Feasibility of attendance, as rated by parents/caregivers of participants (≥60% rate "extremely" or "very" practical to attend) 3. Attrition rate of the study, as determined by percentage of participants who complete the study (≥ 60%) 4. Overall satisfaction, as rated by parents/caregivers of participants (≥60% rate "very satisfied" or "satisfied")
NCT06204809
The primary purpose of the study is to evaluate the safety and tolerability of single intravenous (IV) doses of PGN-EDODM1 administered to participants with Myotonic Dystrophy Type 1 (DM1). The study consists of 2 periods: A Screening Period (up to 30 days) and a Treatment and Observation Period (16 weeks).
NCT06932081
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.
NCT06711666
Congenital heart disease (CHD) is the leading cause of congenital malformations, representing 1% of live births. Progress in surgical care have led to the dramatic increase in the population of children and adults living with heart disease. As survival is no longer a concern, long-term outcomes have become the major public health issue. Prenatal diagnosis of CHD requiring open-heart surgery can be a traumatic event for expecting mothers and fathers. In the general population, maternal mental health distress is associated with fetal disturbances in the hypothalamic-adrenal-pituitary system axis, restricted intrauterine growth and adverse outcomes in the offspring. It is unknown whether prenatal maternal psychological distress have an impact on neurodevelopmental outcomes in CHD. Our national study seeks to (1) characterize the impact of prenatal maternal psychological distress on neurodevelopmental outcomes at age 1 for children with CHD who undergo neonatal open-heart surgery; (2) investigate the sociodemographic and medical determinants associated with prenatal maternal mental health of women carrying a foetus diagnosed with complex CHD; (3) explore the mediating role of prenatal risk factors (i.e., sociodemographic, medical and maternal coping mechanisms) in the association of prenatal maternal mental health (i.e., distress, anxiety and depression) and neurodevelopment in children with CHD; and (4) explore the impact of paternal or the co-parent's mental health impact on neurodevelopmental outcomes at age 1 in children with CHD. This study is a non-interventional, prospective, and longitudinal study of prenatal maternal mental health and subsequent child's neurodevelopmental and behavioural outcomes. It includes a follow-up period from the 3rd trimester of pregnancy until the child's first year of life. It will include children with a prenatally diagnosed heart defect requiring open-heart surgery within the first weeks of life. Understanding and preventing the neurodevelopmental sequelae of heart disease diagnosed in-utero is a public health priority.
NCT06300307
The goal of this clinical trial is to test ATX-01 in participants with myotonic dystrophy type 1 (DM1). The main question it aims to answer is if ATX-01 is safe and well tolerated. The trial will compare the safety and tolerability of ATX-01 and a matching placebo. There will be a single-ascending dose part of the trial and a multiple-ascending dose part. In the single-ascending dose, participants will receive one dose of ATX-01 or placebo. In the multiple-ascending dose part, participants will receive three doses of ATX-01 or placebo. ATX-01 is a novel anti-miR (synthetic single stranded oligonucleotide) that inhibits a microRNA called miR-23b.
NCT06937242
The goal of this study is to find out if using microprocessor-controlled prosthetic knees (MPKs), prosthetic knees with a built-in computer, improves health outcomes related to falls in adults who use above-knee prostheses. The main questions are: * Do individuals with MPKs have fewer fall-related health issues compared to those with non-microprocessor-controlled prosthetic knees (nMPKs)? * Do individuals with MPKs have increased mobility, faster walking speed, and improved quality of life compared to those with nMPKs? Participants who have recently received an nMPK as part of their regular care can join the study. Those randomized to the control group will keep using their nMPK, while those randomized to the intervention group will receive a stance-and-swing MPK or a stance-only MPK.
NCT07008469
A Global Phase 3 Open-Label Extension Study to Assess the Long-Term Safety, Tolerability, and Efficacy of Intravenous Delpacibart Etedesiran (abbreviated del-desiran, formerly AOC 1001) for the Treatment of Myotonic Dystrophy Type 1
NCT06844214
This is a Phase 1/Phase 2 open-label single arm, multicenter, and multinational study with SAR446268 for treatment of male and female participants 10 to 50 years old with non-congenital myotonic dystrophy (DM) type 1 (DM1). The purpose of this study is to evaluate the safety and efficacy of SAR446268 in knocking down dystrophia myotonica protein kinase (DMPK) messenger ribonucleic acid (mRNA) levels and improving neuromuscular function in DM1 participants receiving a single intravenous (IV) administration of SAR446268. The study consists of a dose escalation part (Part A) during which single ascending doses of SAR446268 will be evaluated in 3 distinct cohorts and an optional 4th dose cohort. Once a safe and effective dose is identified, additional participants will be treated in Part B, the dose expansion phase of the study. The study duration will be 110 weeks (approximately 2 years) for each participant in Parts A and B respectively and includes a 6-week screening phase and a 104-week follow-up period post-SAR446268 administration.
NCT05854433
Nearly two-third of patients with myotonic dystrophy type 2 (DM2) report that impaired cognition is among the most disabling symptoms and deeply affects their quality of life. Yet, relatively little is known about how DM2 affects brain structure and cognitive function as brain imaging studies in DM2 are extremely limited. This is a prospective, cross-sectional study of brain structure and function on cognitive and motor performance in patients with DM2 \& DM1 compared to healthy controls. All participants will undergo magnetic resonance imaging (MRI) to evaluate brain structure and white matter integrity, a comprehensive battery of cognitive and motor measures, self-reported questionnaires, and blood collection for brain-based biomarker analysis. A subset of participants will undergo lumbar puncture for cerebrospinal fluid (CSF) collection for additional biomarker analysis and validation. This work is critical to inform the development of rigorous clinical trial designs and plan for a longitudinal study to evaluate MRI measures as imaging biomarkers of disease progression and therapeutic response in DM2 \& DM1.
NCT07363538
There remains controversy regarding the optimal timing of surgical treatment for neonatal CCHD (Complex Congenital Heart Disease). Based on the established national multi-center database for surgical treatment of congenital heart disease and the prenatal-postnatal integrated diagnosis and treatment model, this study will conduct a multi-center RCT (Randomized Controlled Trial) to explore the optimal surgical timing for neonatal CCHD. It will also develop innovative comprehensive treatment strategies for critically ill neonatal CCHD patients, use RCT data to evaluate treatment efficacy and establish an evaluation system. This system will be gradually promoted nationwide, aiming to reduce the incidence of perioperative mortality and non-recovery discharge in CCHD patients by 50% (National in-hospital mortality rate of neonatal congenital heart disease surgery in 2023: 6.5%; non-recovery discharge rate: 12.66%), thereby improving the overall level of CCHD treatment in China.
NCT07362875
Myotonic dystrophy (dystrophia myotonica; DM), the most prevalent form of muscular dystrophy in adults, is characterized by progressive myopathy, myotonia, and multi-systemic involvement. DM causes severe disability and profoundly affects the patient's quality of life. Currently, no effective treatments are available that alter the course of the disease, but ongoing clinical trials are underway.
NCT07327502
Postoperative mediastinitis is an important cause of postoperative morbidity in children. The main objective of this study is to describe the distribution of cefazolin, using as surgical antibiotic prophylaxis, in the mediastinal compartment in children after cardiac surgery for congenital heart disease. The investigators aims to build a population pharmacokinetic model of cefazolin using plasma and tissue concentrations in order to optimize and individualize cefazolin dosing regimens. Cefazolin tissue pharmacokinetics will use a microdialysis procedure.
NCT05241691
Orthofix is conducting this retrospective Post-market clinical follow up (PMCF) study to assess the safety and clinical performance of the Guided Growth Plate System Plus (GGPSP) device, which is a new version of the Guided Growth Plate System (GGPS) from which it differs for small modifications compared to the original design. The purpose of the study is to collect clinical evidence from the use of the device in a representative number of pediatric patients who have already been treated with the device in the study and with at least one control visit post removal of plaque.. For this purpose, a retrospective PMCF study was considered to be the most appropriate study design to obtain the necessary information.
NCT06504667
The objective of the device feasibility study will be to validate the user needs of the Point Mini system. This study will be a single group intervention model where one group of 5 children with partial-hand upper limb loss will be asked to perform several tasks. Successful completion of a task results in a fulfilled user need. Failure to complete a task results in an unfulfilled user need.
NCT07255144
About 13 in 1000 children are born with heart disease. Current tools poorly assess heart filling in children, limiting treatment. This study explores ultrafast ultrasound imaging to measure heart stiffness and perfusion in children with congenital heart disease.
NCT02352207
This research focuses on lung malformations detected in fetuses during prenatal ultrasound exams. Pathogenic mechanisms of these rare malformations are poorly understood. Improved knowledge is needed, to give families better information, and to better standardize treatment decisions The main goal is to better predict neonatal complications associated with these malformations, by identifying key predictive markers during the fetal period. To achieve this objective, it is planned to include 400 pregnant women with prenatal diagnosis of pulmonary malformation in 45 health centers in France. This is the largest study on this topic at the international level.
NCT03047369
The Myelin Disorders Biorepository Project (MDBP) seeks to collect and analyze clinical data and biological samples from leukodystrophy patients worldwide to support ongoing and future research projects. The MDBP is one of the world's largest leukodystrophy biorepositories, having enrolled nearly 2,000 affected individuals since it was launched over a decade ago. Researchers working in the biorepository hope to use these materials to uncover new genetic etiologies for various leukodystrophies, develop biomarkers for use in future clinical trials, and better understand the natural history of these disorders. The knowledge gained from these efforts may help improve the diagnostic tools and treatment options available to patients in the future.