Congenital Disorders Clinical Trial
Official title:
MRI Assessment of Right and Left Ventricular Strain, Associated Function, Volume and ECG Parameters as Predictors of Optimal Timing for Pulmonary Valve Replacement in Patients Post Repair for Tetralogy of Fallot
Magnetic Resonance Imaging (MRI) is a non-invasive test that can look at the heart without
using radiation. An MRI will allow the doctors to look at the heart in order to assess how
well the ventricle is pumping, the amount of blood that it is pumping in addition to how
much it is stretching. An engineer at Georgia Tech has developed a new way of looking at an
MRI. It is believed that this new way of looking at an MRI may be better able to tell us
when to replace the valve in these children. If this new process works, not only can we
apply it now but we will be able to look at previously performed MRIs and gather more
information about these children and their heart function in order to help these and other
children in the future.
We are planning on enrolling 30 subjects in this study. Some of the subjects will be
enrolled and have their MRI strictly for the purpose of this study. Some of the subjects
will be already scheduled for a routine MRI of their heart and we will ask them if we can do
extra images for the study while they are already here.
Cardiovascular disease remains a leading cause of morbidity and death in the Western World.
Assessment of Myocardial function has proven to be a clinically relevant method for
monitoring and evaluating outcomes of medical therapy and surgery for structural lesions or
acquired disease.
Tetralogy of Fallot (TOF) is the most common form of cyanotic congenital heart disease with
a prevalence of 0.26 to 0.8 per 1000 live births The current surgical approach favors
primary repair in infancy. This decreases the necessity for palliative procedures and has a
low operative mortality. Complete repair often results in pulmonary regurgitation (PR),
which is generally well tolerated in infancy. Late complications may include ventricular
dilatation, tricuspid regurgitation, diastolic and systolic dysfunction, arrhythmias and
sudden cardiac death.
Pulmonary valve replacement (PVR) is required in approximately 20% of patients with repaired
TOF and has a 1-4% peri-operative mortality. Thus, early intervention may reduce
irreversible right ventricle injury; however no definitive tools are presently available for
determining patients at risk.
Myocardial strain analysis has not been critically evaluated to determine its value for
predicting RV failure. This study will investigate the practicality and accuracy of a novel
mathematical method, developed by the investigators, for analysis of cardiac deformation
recovery from dynamic Cardiovascular Magnetic Resonance Imaging (CMRI) sequences. The
proposed method requires structural MRI data, offering several important advantages over
existing methods. These include reduced requirements in imaging time and analysis effort,
and the option to use a large database of prior structural MRI studies of TOF patients in
retrospective research.
This three-dimensional method is mathematically based on nearly incompressible tissue
deformations. The project proposes validation of technique, comparing its results with
current 'gold standard' methods that presently use CMRI myocardial tagging and phase
velocity mapping, as a pilot study for clinical validation of strain imaging in TOF
patients. The method tracks movement of myocardial tissue throughout the cardiac cycle to
compute strain associated with normal and a clinical disease state.
During the study we will customize the method and software for specific use with CMRI and
TOF. We will test the method on normal controls and TOF patients pre and post pulmonary
valve replacement.
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