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NCT05838235
This research study aims to evaluate the effect of a 6-month adapted physical activity program (APA) on the endurance capacities (evaluated as the maximum oxygen consumption \[VO2 peak\] on a cardiopulmonary exercise test) of children and adolescents with Marfan syndrome or related.
NCT03236571
Marfan syndrome (MFS) is a rare genetic disease (1/5000) characterized by the association of ocular impairment, cardiovascular disease and musculoskeletal disease. In some chronic conditions, physical activity and training have been shown to be effective in improving muscle strength and functional abilities but also fatigue and quality of life. We hypothesize that the implementation of a personalized exercise rehabilitation program (Personalized Training Program) in children and young adults with MFS, by improving muscle mass, physical endurance, muscle strength, bone mass and quality of life of these patients. In order to test this hypothesis, investigators wish to carry out an interventional, prospective, monocentric study for the first time in children and young adults (\<25 years old) presenting an MFS.
NCT00429364
Marfan syndrome is a hereditary connective tissue disorder. Many individuals with this condition die because of the associated heart and blood vessel abnormalities. This study will compare the effectiveness of two medications, losartan and atenolol, at slowing aortic root enlargement in individuals with Marfan syndrome.
NCT05809323
Marfan syndrome (MFS) is a distinctive connective tissue disorder that affects multiple organ systems including the heart, bones, ligaments, and eyes, and is associated with significant risk of aortic dissection. Given limited evidence from in-vitro studies, and theoretical concerns, the majority of patients with MFS are restricted from certain physical activities. The lack of exercise and deconditioning have detrimental effects including increasing weakness, joint pain, decreased endurance, and depressive symptoms. Given the significant paucity of data currently existing on the effects of exercise in humans with MFS, and the recent, optimistic findings in rodent models, this pilot trial was established to assess the effects of moderated dynamic exercise in adolescents and young adults with MFS.
NCT00270686
Background: \- Heritable disorders of connective tissue are genetic conditions that can affect the skin and other parts of the body. They are related to mutations in genes that are responsible for building tissues. The symptoms differ among disorders. Researchers want to study which genes may be responsible for different disorders. They will be performing a long-term (up to 10 years) study and a study that requires a single visit. These studies will look at how these disorders affect the body and what genes may cause these conditions. Objectives: \- To perform one-time and long-term studies of people who have heritable disorders of connective tissue. Eligibility: \- Individuals at least 2 years of age who have or may have a heritable disorder of connective tissue. Design: * Participants will be screened with a physical exam, medical history, and blood samples. * Participants will be on one of two parts of this study. The longitudinal arm will require long-term study over about 10 years. The mutational analysis arm will involve a single visit. * Longitudinal arm participants must be at least 12 years of age. They will have study visits at regular intervals for up to 10 years. The tests given at these visits may include all or some of the following: * Blood, saliva, urine, and skin samples * Heart and lung function tests * Magnetic resonance imaging scans of the neck, chest, spine, and abdomen * Other imaging studies such as x-rays, bone density scans, and ultrasounds * Questionnaires about sleep, pain, and quality of life * Photographs of affected areas. * Mutational analysis arm participants will have a single study visit. They will provide blood and saliva samples. They will provide tissue from a skin biopsy. They will also let the researchers take photos of any affected body parts. They will complete questionnaires about sleep, pain, and quality of life.
NCT01715207
Marfan syndrome (MFS) is an inherited disorder of connective tissue with morbidity and mortality from aortic dilatation and dissection. The current standard of care is beta-blocker (BB) treatment and therapeutic target is heart rate. The degree of aortic dilatation and response to BB vary in adults with MFS. However, aortic stiffness is often present, and can be a predictor of aortic dilatation and cardiovascular complications. Aortic stiffness is a logical therapeutic target in adults with MFS. Transforming growth factor beta(TGF-beta) mediates disease pathogenesis in MFS and contributes to aortic stiffness. Cross-talk between TGF-beta system and renin-angiotensin system (RAS) has been demonstrated. The angiotensin receptor blocker (ARB), losartan, inhibits TGF-beta activity and reverses aortic wall pathology in a Marfan mouse model. In a small cohort study, the use of ARB therapy (losartan or irbesartan) significantly slowed the rate of progressive aortic dilatation in patients with MFS, after BB therapy had failed to prevent aortic root dilatation. In another study, angiotensin converting enzyme inhibitor, perindopril, reduced both aortic stiffness and aortic root diameter in patients with MFS taking standard BB therapy. Renin inhibitor, aliskiren, has not been studied to reduce aortic stiffness and attenuate aortic dilatation in patients with MFS. This trial is a randomized, open-label trial of 32 patients with Marfan syndrome, treated with 6 months of aliskiren vs. negative controls in patients with MFS under atenolol treatment. MRI for aortic pulsed wave velocity (PWV) and distensibility, measurements of central BP (CBP) and augmentation index (AIx) will be performed at the beginning and end of treatment. A blood drawn for serum markers of TGF-beta, extracellular matrix turnover and inflammation will also be performed at 0 and 6 months. We plan to determine whether aliskiren decreases aortic stiffness significantly more than negative controls in patients with MFS under atenolol treatment.
NCT02148900
The objective of this study is to determine whether a simple blood test can be a useful clinical tool for monitoring aortic disease in Marfan syndrome and Marfan-related disorders.
NCT00723801
Marfan syndrome is an inherited connective tissue disorder with morbidity and mortality from aortic dilation and dissection. The degree of aortic dilation and response to beta-blockade (standard of care) vary in adults with Marfan syndrome. However, aortic stiffness is often present, and can be a predictor of aortic dilation and cardiovascular complications. In addition, adults with Marfan syndrome develop left ventricular diastolic dysfunction, which can progress to heart failure. Aortic stiffness and diastolic dysfunction are important and logical therapeutic targets in adults with Marfan syndrome. TGF-beta mediates disease pathogenesis in Marfan syndrome and contributes to aortic stiffness. The angiotensin receptor blocker, losartan, inhibits TGF-beta activity and reverses aortic wall pathology in a Marfan mouse model. Losartan also decreases aortic stiffness and improves diastolic function in hypertension, renal disease and hypertrophic cardiomyopathy. This trial is a randomized, double-blind trial of 50 adults with Marfan syndrome, treated with 6 months of atenolol vs. losartan. Arterial tonometry for aortic stiffness and echocardiography for diastolic function will be performed at the beginning and end of treatment. A blood draw for serum markers of extracellular matrix turnover and inflammation will also be performed at 0 and 6 months. We plan to determine whether losartan decreases aortic stiffness and left ventricular diastolic dysfunction significantly more than atenolol.