Atrial Fibrillation Clinical Trial
Official title:
SOAR: Study Observing Antiarrhythmic Remodelling Using LGE-MRI
The primary objective of this study is to demonstrate how dronedarone (Multaq®) may aid in the slowing of progression of left atrial and ventricular fibrosis in patients with atrial fibrillation as assessed by late gadolinium enhanced magnetic resonance imaging.
BACKGROUND AND INTRODUCTION:
Atrial fibrillation (AF) arises as a result of a complex interaction between triggers,
perpetuators and substrate. As early as 1995, Morillo et al have demonstrated that AF is
associated with ultrastructural changes in myocytes. In animal models, alterations in
myocytes after sustained AF resemble those of myocardial hybernation with a phenotypical
adaptation towards a more fetal stage. Ultimately, these structural changes would lead to
Calcium overload and metabolic stress, similar changes have been observed in humans.
However, in humans, atrial dilatation and degenerative changes have been observed.
Interstitial fibrosis (caused by deposits of collagen and fibronectin) is the prime cause of
structural remodeling in left atrium (Boldt et al., 2004). It has been well established that
fibrosis is a confounding clinical factor in causing AF (Kostin et al., 2002). But AF itself
promotes fibrosis, which in turn leads to increased conduction heterogeneity within the
atrial substrate resulting in further progression of AF (Everett,and Olgin, 2007).
The recent introduction of Late Gadolinium enhancement magnetic resonance imaging (LGE-MRI)
sequence now allows for non-invasive assessment of the location and extent of arrhythmia
related fibrosis.
Contrast enhancement occurs as a result of altered washout kinetics of gadolinium relative
to normal surrounding tissue, which may reflect increased fibrosis or tissue remodeling of
the myocardium. Our group has demonstrated the feasibility of a new LGE-MRI acquisition and
processing protocol to detect fibrosis in the LA.
To date, no controlled trials evaluating the effect of antiarrhythmic drugs (AAD) and
regression of left atrial fibrosis as assessed by LGE-MRI has been performed. We propose to
use LGE-MRI to evaluate the effects of dronedarone vs. placebo on atrial and ventricular
fibrosis. It has been shown that the success of catheter ablation procedure (which has been
shown to be superior in terms of maintaining sinus rhythm in AF patients when compared to
anti-arrhythmic drugs) is dependent upon the extent of fibrosis (Akoum et al., in prep). In
AF patients with greater than 35% enhancement (percent left atrial fibrosis), the success of
catheter ablation in reducing AF recurrence is greatly reduced. Hence for these patients, a
drug that can control the progression of fibrosis and simultaneously provide respite from AF
recurrence would be an extremely desirable prescription.
Multaq® is the chosen drug in this study because clinical trials (Hohnloser et al., 2009)
have shown that it has the potential to reduce incidence of hospitalizations due to
cardiovascular events by 25.5% and death in AF patients by 45%. We acknowledge the
information that Dronedarone may be more prone to AF recurrence, however, it has a better
safety profile with regards to thyroid and neurologic events and does not interfere with
oral anticoagulants (Le Heuzey et al., 2010), which make dronedarone a more preferred
antiarrhythmic drug to be used for this study. Furthermore, in patients who took dronedarone
post cardioversion procedure to revert arrhythmia back to normal sinus rhythm (NSR),
dronedarone has been shown to decrease AF recurrences (Le Heuzey et al., 2010).
OBJECTIVES:
Primary:
The primary objective of this study is to demonstrate how dronedarone may aid in the
regression or slowing of progression of left atrial and ventricular fibrosis in patients
with atrial fibrillation as assessed by LGE-MRI, using longitudinal data from a
double-blinded, prospective study of patients diagnosed with atrial fibrillation over a
twelve month follow up period.
Secondary:
- To study the effects of dronedarone in global parameters of myocardial remodeling such
as right and left atrial volumes and right and left ventricular volumes.
- To study correlation between AF burden expressed as percentage of AF measured by an
8-day Holter Monitoring at three, six and twelve months post initiation.
;
Allocation: Randomized, Endpoint Classification: Efficacy Study, Intervention Model: Parallel Assignment, Masking: Double Blind (Subject, Outcomes Assessor), Primary Purpose: Prevention
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