Microvascular Disease Exercise Trial (MOVE)
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|ClinicalTrials.gov Identifier: NCT02045459|
Recruitment Status : Active, not recruiting
First Posted : January 24, 2014
Last Update Posted : May 16, 2018
For part of this study, we are collecting information from patients that have been experiencing the symptoms mentioned above. We are taking this information and creating a chest pain registry to follow trends and compare different patients having similar symptoms. We hope to gain insight into the quality of life, symptoms, and cardiac events of those who are having similar symptoms. The type of information we will collect includes: demographics, quality of life, levels of anxiety related to angina pain and cardiac events occurring within a 2 year period of time.
In addition, we are performing a cardiac stress MRI for research purposes to look at the blood flow in the small vessels in your heart. During the stress cardiac MRI, we will give you a medication called Regadenoson (Lexiscan) which "stresses" your heart by dilating the blood vessels to your heart. This drug is approved by the U.S. Food and Drug Administration (FDA) for this purpose. We will then be able to measure the myocardial perfusion reserve (MPR) which is a measure of blood flow through the small blood vessels to see if an abnormal MPR and small blood vessel disease is associated with an increased risk of cardiovascular events, such as heart attack. At this point, there is no specific therapy for small vessel disease. In addition we have phase II of this study which is to determine if exercise and intensive medical therapy together compared to intensive medical therapy alone improves pain from the heart and improves overall quality of life.
|Condition or disease||Intervention/treatment||Phase|
|Coronary Microvascular Disease||Behavioral: Exercise Program||Not Applicable|
Cardiac angina is a major source of morbidity, affecting more than 5% of the U.S. population.2 It leads to more than 1.5 million hospitalizations and $190 billion in costs yearly.3 Obstructive coronary artery disease (CAD) is the most common cause of angina. However, no obstructive CAD is found on elective coronary angiography in more than 50% of cases.4, 5 These patients with angina but no obstructive CAD are a heterogeneous group. Some have noncardiac explanations for their angina or nonobstructive epicardial abnormalities such as coronary spasm. However, many patients with angina and no obstructive CAD have microvascular dysfunction from endothelial dysfunction or microvascular obstructive disease as the cause. These patients have microvascular angina.
The coronary microvasculature is responsible for more than 70% of coronary resistance and thus plays a key role in regulating blood flow to match demand.6 Microvascular dysfunction can occur in the setting of dilated, hypertrophic, and restrictive cardiomyopathies. However, it is commonly seen in the setting of atherosclerotic risk factors or can be idiopathic.6, 7 Microvascular dysfunction is manifest as insufficient stress myocardial blood flow and/or reduced myocardial perfusion reserve (MPR), the ratio of stress flow to rest flow, in response to a stress such as vasodilator administration. Absolute myocardial blood flow and MPR can be assessed noninvasively with high precision and accuracy by cardiac magnetic resonance (CMR) imaging Reduced MPR in patients with angina is associated with significant morbidity, including a high risk of cardiac events, high medical costs, and a decreased quality of life.Despite the poor prognosis of this population, therapeutic options to reduce angina and improve MPR have not been well studied. Preliminary analysis shows that statins may improve endothelial function. ACE-inhibitors and beta-blockers improve symptoms in Syndrome X, a related disorder in which patients have angina, no obstructive CAD, and ischemic changes but a better prognosis. Therapeutic exercise has also been used in the Syndrome X population, improving exercise tolerance and endothelial function and reducing symptom severity.Improvements in MPR could be expected with exercise due to the reduced resting flow and increased MPR seen in healthy volunteers and improved endothelial function from increased nitric oxide bioactivity in patients with probable microvascular dysfunction. However, no studies have examined the effect of these medications or their synergism with exercise on MPR, aerobic capacity, anginal symptoms, or quality of life in patients with angina and reduced MPR. Identification of an effective therapy that improved symptoms and prognosis would have dramatic impact on this highly prevalent patient population.
The primary goal of this study is to characterize which patients with angina but no obstructive CAD have reduced MPR and test the effectiveness of intensive medical therapy plus a 12-week supervised exercise program versus intensive medical therapy alone to improve MPR, aerobic capacity, and the patient-centered outcomes of cardiac events, angina severity, and quality of life in this population with microvascular angina.
|Study Type :||Interventional (Clinical Trial)|
|Estimated Enrollment :||165 participants|
|Intervention Model:||Single Group Assignment|
|Masking:||None (Open Label)|
|Official Title:||Assessment of Perfusion Reserve and Effects of Exercise in Microvascular Angina|
|Study Start Date :||May 2014|
|Estimated Primary Completion Date :||December 2020|
|Estimated Study Completion Date :||July 2021|
Experimental: Exercise Program and Medical Therapy
All subjects randomized to this arm will be given intensive medical therapy including - Isosorbide mononitrate, Lisinopril, Carvedilol, and Simvastatin. After 8 weeks of ONLY medication therapy, the subjects will begin a intensive exercise program. This will be supervised on site at UVA. Also, on days that the subject is not being supervised, they will be required to keep a journal of their exercise at home.
Behavioral: Exercise Program
Subject will be exercising on a treadmill 3x/week. Subjects progress will dictate increases/decreases in time of exercise and pace.
- Change in MPR on CMR imaging from baseline with intensive medical therapy + supervised exercise versus intensive medical therapy alone. [ Time Frame: 20 weeks from first visit after consent is signed ]Determined with the use of a stress MRI after subject has been randomized and completed said randomized arm.
- Incremental change in MPR with exercise over intensive medical therapy alone in the exercise subgroup [ Time Frame: 20 weeks after randomization ]Determined by the use of stress MRI after subjects have completed their arm of randomization
- Identification of reduced MPR (<2.0 ml/g/min) and borderline reduced MPR [ Time Frame: Within 30 days of screening visit ]This number is established by the use of a stress MRI
To learn more about this study, you or your doctor may contact the study research staff using the contact information provided by the sponsor.
Please refer to this study by its ClinicalTrials.gov identifier (NCT number): NCT02045459
|United States, Virginia|
|University of Virginia|
|Charlottesville, Virginia, United States, 22901|
|University of Virginia|
|Charlottesville, Virginia, United States, 22902|
|Principal Investigator:||Jamieson Bourque, BA,MD,MHS||University of Virginia|