Marfan Syndrome Moderate Exercise Trial II

Purpose

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.

Condition

  • Marfan Syndrome

Eligibility

Eligible Ages
Between 10 Years and 25 Years
Eligible Sex
All
Accepts Healthy Volunteers
No

Inclusion Criteria

  • Male and female patients diagnosed with Marfan syndrome (defined by Ghent criteria and either a pathogenic variant in FBN1 or ectopia lentis) - Age 10-25 years at enrollment

Exclusion Criteria

  1. History of aortic surgery 2. History of spinal surgery with implanted materials that may negatively impact MRI safety or imaging quality. 3. Diagnosis of major congenital heart disease (ASD, VSD, bicuspid aortic valve, and mitral valve prolapse will not qualify as exclusion criteria) 4. Condition limiting the ability to perform moderate exercise. 5. Major concurrent diagnosis that may confound the interpretation of the effect of the proposed intervention on the proposed outcome measures. 6. Aortic dilation meeting threshold for prophylactic aortic surgical intervention (>/= 4.5 cm in diameter)

Study Design

Phase
N/A
Study Type
Interventional
Allocation
Randomized
Intervention Model
Parallel Assignment
Intervention Model Description
The interventional study will be conducted as a parallel study model, with 2 groups in total: Exercise Intervention Group (interventional group) and Current Care Group (control group). Baseline and follow up testing will occur in both groups at identical time intervals.
Primary Purpose
Treatment
Masking
None (Open Label)

Arm Groups

ArmDescriptionAssigned Intervention
Experimental
Exercise Intervention Group
Group of up to 50 patients will randomly allocated into an experimental group at a 4:1 ratio intervention to controls. The experimental group will receive all of the preliminary outcome measure testing (cardiovascular, musculoskeletal, and psychological screening) in addition to exercise intervention education, demonstration, and follow up to ensure compliance and safety.
  • Other: Exercise Intervention Group
    Patients will be educated on methods of self-evaluating exertion and cardiovascular effort by assessing respiratory rate and perceived exertion. Next, patients will be given options for cardiovascular activities and complete at a moderate level of activity for a minimum of 150 minutes per week. Patients will perform a combination of exercises under the supervision of a physical therapist until a mod intensity level is reached and sustained. Patients will be taught to use the activity tracker to record their heart rate, activity, and PES. Patients will have a phone call every week to assess status, answer questions, and provide guidance on progressing intensity or duration of exercise. At the end of 12 weeks all patients will return for re-assessment.
Other
Control Group
Control group will be randomly allocated at a 4:1 ratio, intervention to controls.. The control group will receive all of the preliminary outcome measure testing (cardiovascular, musculoskeletal, and psychological screening) and will be instructed to continue with baseline physical activities. They will be asked to return for a reassessment of all baseline procedures (cardiovascular, musculoskeletal, and psychological screening).
  • Other: Control Group
    Patients in the control group will be instructed to continue with baseline physical activities over the duration of the study and be given instructions on the use of the activity tracker. At the end of 12 weeks all patients will return for re-assessment.
    Other names:
    • No Intervention

Recruiting Locations

Texas Children's Hospital
Houston, Texas 77030
Contact:
Shaine A Morris, MD MPH
832-826-5682
shainem@bcm.edu

More Details

Status
Recruiting
Sponsor
Baylor College of Medicine

Study Contact

Shaine A Morris, MD, MPH
832-826-5692
shainem@bcm.edu

Detailed Description

Marfan syndrome (MFS) is a distinctive connective tissue disorder with clinical phenotypes that affect multiple organ systems including the heart, bones, ligaments, and eyes, and are associated with significant risk of aortic dissection. Given anecdotal reports of aortic dissection, limited evidence from in-vitro studies, and theoretical concerns, the majority of patients with MFS are restricted from certain physical activities, most commonly isometric exercise and contact sports. Published guidelines also suggest restriction from highly dynamic competitive sports. While clinicians may mean to restrict patients only from competitive sports, often children and families interpret this caution as applying to almost all exercise, resulting in a large number of patients with MFS being sedentary. This lack of exercise and deconditioning likely has detrimental effects in increasing weakness and joint pain and decreasing endurance. Depressive symptoms are also not uncommon in patients with these syndromes, and may be triggered or exacerbated by guidance to acutely cease participation in sports at the time of diagnosis. To date, as far as we are aware, there are no published controlled studies on the effects of dynamic exercise on human subjects. In 2017, Mas-Stachurska et al published a study suggesting that a moderate level of dynamic exercise mitigated progressive degradation of the cardiac structures typically seen in MFS in a rodent sample. This study suggests the possibility that the fears surrounding moderate exercise in humans may be unwarranted. In addition, this study suggests that moderate exercise may actually protect the aorta and myocardium, in addition to the numerous other physical and emotional benefits that have been shown to result from consistent exercise. We have unpublished trial results in a pilot study that also suggest benefit to adolecents and young adults. Given the significant paucity of data currently existing on effects of exercise in humans with MFS, and the recent optimistic findings in rodent models, we plan to conduct a randomized control trial of moderate dynamic exercise in adolescents and young adults with MFS. The objective is to: 1) Randomize 50 patients with Marfan syndrome from ages 10-25 years to current status and care (controls) versus a moderate dynamic exercise intervention, then 2) allow the control group patients to undergo the exercise intervention.The investigators will then compare outcomes between both the intervention and control groups, and between the baseline and post-intervention states. Specific outcome measures will include cardiovascular assessment: maximal oxygen uptake (max VO2), ambulatory blood pressure, segmental and central aortic stiffness, ventricular mass and volume, and endothelial function, physical assessment by the physical therapist, and quality of life/mental health assessment: health-related quality of life, depression and anxiety screening scales. The hypothesis is that the intervention of a moderate exercise program introduced by a licensed physical therapist will result in improvement in cardiovascular status, muscular health, and mental health without detrimental effects on the aortic wall.