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Clinical Trial Summary

Vascular Ehlers-Danlos Syndrome (VEDS) is caused by pathogenic variants of the COL3A1 gene, resulting abnormal Type III collagen protein. This impacts the body's connective tissue and makes people with VEDS at high risk of spontaneous aortic and arterial rupture, pneumothorax, and hollow organ perforation across the age spectrum. Given this risk and high potential for lethality, VEDS is considered the most severe type of Ehlers-Danlos Syndrome. In addition, many patients experience chronic pain and fatigue, sleep disturbances, and mental health challenges. As is the case for many patients with chronic illness, stress, anxiety, and depression are often present over the course of the disease. Despite the antecedent, stress and anxiety trigger a sympathetic nervous system (SNS) response in the body, which, over a period of time, can have detrimental effects both physiologically and psychologically for patients. Recent studies have begun to use biofeedback techniques to teach patients non-pharmacological strategies for managing their autonomic nervous system. One such program, Heartmath®, has been successful in helping patients lower stress, anxiety, and systolic blood pressure. This pilot trial was established to assess the effectiveness of a virtually based heart coherence program in a population with a chronic aortopathy in an effort to establish a larger, multi-provider program that also encompasses other cardiovascular populations.


Clinical Trial Description

Vascular Ehlers Danlos Syndrome (VEDS) is caused by pathogenic variants of the COL3A1 gene, resulting abnormal Type III collagen protein. This impacts the body's connective tissue and makes people with VEDS at high risk of spontaneous aortic and arterial rupture, pneumothorax, and hollow organ perforation across the age spectrum. Given this risk and high potential for lethality, VEDS is considered the most severe type of Ehlers-Danlos Syndrome. In addition, many patients experience chronic pain and fatigue, sleep disturbances, and mental health challenges. As is the case for many patients with chronic illness, stress, anxiety, and depression are often present over the course of the disease. Despite the antecedent, stress and anxiety trigger a sympathetic nervous system (SNS) response in the body, which, over a period of time, can have detrimental effects both physiologically and psychologically for patients. For patients with already compromised cardiovascular systems, the dysregulation of their nervous system can potentially be detrimental to their mental and physiological health, as well as their overall quality of life. Recent studies have begun to use biofeedback techniques to teach patients non-pharmacological strategies for managing their autonomic nervous system. One such program, Heartmath®, has been successful in helping patients lower stress, anxiety, and systolic blood pressure. Our primary aim of this study is to evaluate the effects of an 8 week, virtually-based heart coherence training program (HCTP) with the use of wearable, biofeedback technology. The goal is to perform a randomized-controlled pilot study to assess effect estimates on multiple outcomes in an effort to establish a foundation for a larger, longitudinal trial. The objective is to: 1. Randomize 20 patients with Vascular Ehlers-Danlos Syndrome from ages 12 -45 years to current status and care (controls) versus a biofeedback intervention of additional training and advancement on HeartMath techniques, then 2. Allow the control group subjects to then have access to materials related to the techniques that were taught to the HMI group to allow for therapeutic equality. 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 ambulatory blood pressure, heart rate variability, coherence ratio, mean heart rate, quality of life/mental health assessment: health-related quality of life, depression and anxiety screening scales. Our hypothesis is that individuals with VEDS undergoing a supervised HCTP will demonstrate improvements in ambulatory blood pressure, heart rate variability, and mental health survey measures. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT05994664
Study type Interventional
Source Baylor College of Medicine
Contact Shaine A Morris, MD, MPH
Phone 832-826-5692
Email shainem@bcm.edu
Status Not yet recruiting
Phase N/A
Start date May 22, 2024
Completion date January 1, 2028

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Suspended NCT05463679 - Investigate Efficacy, Safety, and Pharmacokinetics of Enzastaurin for the Prevention of Arterial Events in Patients With Vascular Ehlers-Danlos Syndrome. Phase 3
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