Clinical Trial: Effects of Losartan Versus Atenolol on Aortic and Cardiac Muscle Stiffness in Adults With Marfan Syndrome

Study Status: Completed
Recruit Status: Completed
Study Type: Interventional

Official Title: Effects of Losartan vs Atenolol on Aortic Stiffness and Diastolic Function in Adults With Marfan Syndrome

Brief Summary:

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.


Detailed Summary: Please See Summary.
Sponsor: Brigham and Women's Hospital

Current Primary Outcome: Aortic Biophysical Properties - Pulse Wave Velocity [ Time Frame: Baseline and 6 months ]

Aortic stiffness was assessed using applanation tonometry (SphygmoCor®, AtCor Medical, West Ryde, NSW, Sydney, Australia) to measure carotid to femoral artery pulse wave velocity (PWV). With the patient lying supine in a quiet environment, a handheld micromanometer-tipped probe was applied to the skin surface over the carotid and femoral arteries, compressing the vessel wall so that transmural forces within the vessel wall were perpendicular to the arterial surface. The distance from the sternal notch to the sites of carotid and femoral pulse acquisition were measured and inputted into the device to represent the relative distance from the carotid to femoral artery. The calculation of distance divided by time of pulse upstroke relative to the upstroke of the QRS on a 3 lead surface EKG was used by the device to calculate velocity. All recorded measurements met the manufacturer's quality control standards integrated into the software package.


Original Primary Outcome: Aortic Biophysical Properties [ Time Frame: 6 months ]

Current Secondary Outcome: Diastolic Function - Ejection Fraction [ Time Frame: Baseline and 6 months ]

Two-dimensional echocardiography was performed using a 3.0 MHz transducer (General Electric VIVID 7). Left ventricular and left atrial dimensions were determined in parasternal long axis views. Left ventricular ejection fraction was calculated using the modified Simpsons calculation in the apical two and four chamber views.


Original Secondary Outcome: Diastolic Function [ Time Frame: 6 months ]

Information By: Brigham and Women's Hospital

Dates:
Date Received: July 25, 2008
Date Started: October 2007
Date Completion:
Last Updated: September 8, 2014
Last Verified: September 2014