Cardiomyopathy Clinical Trial
Official title:
Quantification of Diffuse Myocardial Fibrosis in Children With Cardiomyopathy or Congenital Heart Disease by T1 Mapping Cardiac Magnetic Resonance
Diffuse fibrosis (or scarring) of the heart muscle is found in a variety of congenital heart
diseases and in cardiomyopathies (heart muscle disease), and is considered a mediator of
decreased cardiac function. The detection and quantification of diffuse myocardial fibrosis
has recently become feasible non-invasively, using cardiac magnetic resonance (CMR), applying
a new technique labeled T1 mapping. With this technique, the part of the heart tissue which
is not made up of muscle cells (extracellular volume) can be quantified, as long as the
individual's hematocrit (cellular volume in the blood) is known. The extracellular volume in
the heart tissue is regarded as a quantifiable marker for the extent of diffuse myocardial
fibrosis.
In the proposed study this new T1 mapping technique shall be applied in patients with
different forms of congenital heart disease (n=130), cardiomyopathies (n=40) and in control
subjects (n=30). The additional scan time due to participation in the study will be
approximately 5-10 minutes, without changing the clinical protocol.
The main objective is to study the presence and extent of myocardial fibrosis by T1 mapping
CMR in pediatric patients with congenital heart disease and cardiomyopathies, in comparison
to cardiovascularly healthy controls.
A better understanding of the mechanisms by which the heart muscle fails in pediatric heart
disease may result in novel therapies directed at preventing rather than treating ventricular
failure. The most likely mediator candidate for cardiac demise in congenital heart disease as
well as the cardiomyopathies is diffuse myocardial fibrosis and non-favorable chronic
biventricular remodeling. As such, fibrosis may be a marker, if not a mediator, preceding the
onset of actual echocardiographic and clinical deterioration, opening opportunities for more
timely and targeted treatment. Chronic stressors of myocardial function (hypoxemia, abnormal
afterload or preload) appear to promote fibrosis. In some groups of patients, a genetically
upregulated collagen metabolism seems to play a role. In adult patients with dilated
cardiomyopathy the extent of myocardial fibrosis is predictive of outcome.
With cardiac magnetic resonance imaging, the characterization of myocardial tissue is
possible. Whereas standard late gadolinium enhancement (LGE) CMR can only identify patchy
scars neighboring healthy tissue, quantification of diffuse myocardial fibrosis in the living
has become feasible with the T1 mapping technique. Both techniques (T1 mapping and LGE) are
based on the principle that MR contrast medium (gadolinium) is trapped in between collagen
fibres and is retained in areas of fibrosis while it is quickly washed out of healthy
myocardium. As gadolinium is a T1 shortening agent, the fibrosed tissue with its 'trapped'
gadolinium has a shorter T1 time than healthy tissue. T1 mapping measures the T1 time
constant, which has been shown to correlate with the degree of fibrosis. In a refined
approach of this technique, which we will use, it is now possible to quantify the
extracellular space (equivalent to the degree of fibrosis) by T1 mapping. This method has
been validated against the current gold standard of surgical myocardial biopsy.
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