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Active clinical trials for "Congenital Abnormalities"

Results 221-230 of 931

Quantitative Susceptibility Biomarker and Brain Structural Property for Cerebral Cavernous Malformation...

Cavernous MalformationCerebral7 more

Cerebral cavernous malformation (CCM)-related epilepsy (CRE) impairs the quality of life in patients with CCM. Patients could not always achieve seizure freedom after surgical resection of the lesion, suggesting an inadequate treatment and evaluation of the epileptogenic zone or network. Iron deposition in cerebral cavernous malformations has been postulated to play an important role in triggering CRE. Quantitative susceptibility mapping (QSM), as an optimal in vivo imaging technique to quantify iron deposition, is employed to analyze the iron quantity in CCM patients with epilepsy and further combined with brain structural and connectome analysis, to describe the difference between CCMs with and without epilepsy. In vivo biomarkers predicting CRE risk in CCM natural history and CRE control outcome after CCM surgical resection will be further identified to improve management strategy.

Recruiting10 enrollment criteria

National Evaluation of Patients With PIK3CA-Related Overgrowth Spectrum (PROS)

PIK3CA-related Overgrowth SpectrumCLOVES Syndrome7 more

Overgrowth syndromes are rare genetic disorders defined by tissue hypertrophy that can be either localized or generalized, affecting both latitudinal and longitudinal growth. The genes involved in overgrowth syndromes are not well characterized but mostly concern the PIK3CA/AKT/mTOR pathway, a major actor of cell growth and proliferation. The mutations are not inherited but occurs during embryogenesis leading to somatic mosaicism. Owing to the variability of the clinical presentation, their exact prevalence is yet unknown. In order to answer this question, the investigators team create here the first French national registry on overgrowth syndromes.

Recruiting6 enrollment criteria

VIGOR: Virtual Genome Center for Infant Health

Genetics DiseaseGenetics/Birth Defects1 more

This study will provide rigorous evaluation of implementing a virtual genome center into community clinical settings without highly specialized resources, thereby offering generalizable insights as to how best to implement genomic medicine at scale and for other age groups. This intervention has great potential to address disparities in genomic medicine among low-income and underrepresented minority (URM) populations and will enhance capacity for providers and health systems to utilize highly specialized genomic techniques in their communities. The goal of this study is to achieve equitable access to state-of-the-art genomic medical care to sick newborns in community centers that predominately care for low-income and racial/ethnic minority populations through the creation of a virtual genome center (VIGOR). VIGOR will provide a venue for physician and family education, genomic expert consultation, reanalysis of unsolved sequencing data, and access to cutting edge therapeutic innovation, thereby facilitating institutionalization of genomic best practices in community settings, and not just highly specialized referral centers.

Recruiting8 enrollment criteria

Congenital Uterine Anomalies: Identifying Cancer Associations and Genetic and Environmental Factors...

Congenital Uterine Anomaly

The purpose of this research study is to learn more about the health outcomes associated with congenital uterine anomalies (CUAs), and the possible environmental and genetic causes of the condition. The researchers plan to investigate whether any cancer associations (with breast, renal, ovarian, vaginal and uterine cancers) exist in females with CUAs. The investigator will also investigate any environmental and genetic factors that may be responsible for causing CUAs.

Recruiting7 enrollment criteria

Registry of Multimodality Treatment for Brain Arteriovenous Malformation in Mainland China

Brain Arteriovenous Malformation

This study is a multi-center, prospective, registry study. This research was supported by the National Key Research and Development Program. They were divided into experimental group and control group according to whether the treatment plan was formulated by a multidisciplinary team. Patients of experimental group is strictly in accordance with standardized multi-disciplinary treatment protocols and meet the following criteria: 1. A multi-disciplinary conference discussion; 2. Detailed preoperative evaluation based on CT, MRI, fMRI and DSA. 3. Treatment modalities meet the following treatment criteria(craniotomy, embolization and stereotactic radiosurgery). The control group was patients who had not been treated according to a multi-disciplinary treatment protocol. Patient baseline data, AVM angioarchitectural features, imaging DICOM data, surgical information, and follow-up information were registered. All patients were evaluated for neurofunction at baseline, 3 months, 12 months, and 3 years after treatment. Main observation endpoints: 1. Modified Rankin Scale; 2. Obliteration rate; 3. Subsequent hemorrhage; 4. Complication rate (such as morbidity rate, new-onset neurological dysfunction, and radiation-related complications). Secondary observation endpoint: improvement of clinical symptoms (epilepsy, headache, neurological dysfunction) at 3 months, 12 months, and 3 years after treatment.

Recruiting7 enrollment criteria

Role of New High Resolution Ultrasonographic Modalities for Diagnosis of Fetal Nervous System Anomalies...

Ultrasound Therapy; ComplicationsAnomaly1 more

The fetal CNS screening examination during the mid-trimester scan in low-risk pregnancies should include evaluation of the fetal head and spine, using transabdominal sonography. Evaluation of two axial planes allows visualization of the relevant cerebral structures to assess the anatomic integrity of the fetal brain.These planes are commonly referred to as the transventricular and transcerebellar planes. A third plane, the so-called transthalamic plane, is frequently added, mostly for the purpose of biometry. Structures that should be noted in the routine examination include the lateral ventricles, the cerebellum, the cisterna magna, and the cavum septi pellucidi (CSP). Head shape and brain texture should also be noted on these views.

Recruiting8 enrollment criteria

AI-Powered Scoliosis Auto-Analysis System Multicenter Development and Validations

Spinal Deformity

The investigators aim to use artificial intelligence (AI) to help clinicians in diagnosing and assessing spinal deformities.

Recruiting2 enrollment criteria

A Prospective Natural History Study of Lymphatic Anomalies

Lymphatic DiseasesLymphatic Abnormalities

Background: The lymphatic system is a network of vessels that carry a clear fluid called lymph through the body. Problems in the lymphatic system can cause pain, fluid buildup, and issues with immunity. There are many things researchers do not understand about lymphatic anomalies. In this natural history study, they will collect data from a lot of people over a long time. Objective: To better understand how lymphatic anomalies develop. The goal is to improve future treatments. Eligibility: People aged 0 days and older with a suspected or confirmed lymphatic anomaly. Their unaffected parents or siblings are also needed. Design: Participants may remain in the study indefinitely. Affected participants may be evaluated every 10 months to 2 years. Visits may take up to 8 hours each, over 2-5 days. These visits may also be completed via telemedicine. All participants will have a physical exam. They may provide specimens including blood, saliva, hair follicles, stool, skin, and other tissues. Samples may be used for genetic testing. Participants may undergo other tests depending on their medical conditions: A 6-minute walk test measures physical function. Heart tests include placing stickers on the chest to measure electrical activity and using sound waves to capture pictures of the heart. A lung test measures the muscle strength in the chest. Participants will blow into a tube. Photographs may be taken of participants faces and other features. Imaging scans will take pictures of the inside of the body. One scan will measure bone density. One type of scan tracks how lymph fluid moves through the body. Participants will be under anesthesia, and they will be injected with a dye.

Recruiting15 enrollment criteria

Pattern Recognition and Anomaly Detection in Fetal Morphology Using Deep Learning and Statistical...

Congenital Abnormalities

Congenital anomalies (CA) are the most encountered cause of fetal death, infant mortality and morbidity.7.9 million infants are born with CA yearly. Early detection of CA facilitates life-saving treatments and stops the progression of disabilities. CA can be diagnosed prenatally through Morphology Scan (MS). Discrepancies between pre and postnatal diagnosis of CA reach 29%. A correct interpretation of MS allows a detailed discussion regarding the prognosis with parents. The central feature of PARADISE is the development of a specialized intelligent system that embeds a committee of Deep Learning and Statistical Learning methods, which work together in a competitive/collaborative way to increase the performance of MS examinations by signaling CA. Using preclinical testing and clinical validation, the main goal will be the direct implementation into clinical practice. This multi-disciplinary project offers a unique integration of approaches, competences, breakthroughs in key applications in human, psychological, technological, and economical interest such as the 'smarter' healthcare system, opening new fields of research. PARADISE creates an environment that contributes significantly to the healthcare system, medical and pharma industries, scientific community, economy and ultimately to each individual. Its outcome will increase impact on the management of CA by enabling the establishment of detailed plans before birth, which will decrease morbidity and mortality in infants.

Recruiting2 enrollment criteria

Mind the Heart, Online Screening of the Mental Health in Children and Adolescents With Congenital...

Heart DefectsCongenital1 more

The aim of the Mind the Heart study is to document the feasibility of an online parent/child administered screening model for mental disorders (MDs) in Danish children and adolescents with congenital heart disease (CHD). As MDs in children and adolescents with chronic somatic health issues are frequently underdiagnosed and undertreated, we further aim to develop a website with evidence based information on mental health in children and adolescents with CHD in order to promote knowledge and awareness among families and health professionals across sectors.

Recruiting6 enrollment criteria
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