Heart Failure Clinical Trial
Official title:
Magnetic Resonance Technique in the Assessment of Exercise-induced Long- and Short-Term Changes in Cardiac Function and Morphology
Until now it has been assumed that regular endurance training has a positive influence on
cardiac function and that the positive effect increases with increasing intensity. However,
little is known about the effects of intense endurance stress on the heart. According to
current knowledge repeated exposure to strenuous endurance activity may lead to minor but
possibly irreversible damage to the heart with resultant scarring of the heart's muscle.
Within this study we attempt to find out by different analytical methods - in particular
magnetic resonance imaging (MRI) and ultrasound of the heart - to what extent the heart
muscle is affected by an intense endurance exercise, i.e. the "Jungfrau-Marathon", and which
changes can possibly be found. Due to repeated measurements we will obtain further
information on the short-term course of possible changes.
Hypotheses: A single bout of prolonged strenuous exercise (PSE) leads to transient
alteration in cardiac function accompanied by the appearance of biomarkers for myocardial
damage.
Background
Despite the well documented cardio-protective effects of aerobic exercise of moderate
intensity, short- and long-term consequences of strenuous exercise are less clear. There is
increasing evidence that maintaining a high cardiac workload over a prolonged duration may
result in transient impairment of cardiac function. Recent studies have also reported a
transient increase in cardiac biomarkers after prolonged strenuous exercise. While in
patients with cardiac disease the presence of cardiac dysfunction and increased cardiac
biomarkers generally reflects myocardial damage, the impact of these observations in
athletes is ill defined. It is a matter of concern whether in athletes such findings simply
reflect a reversible response or whether repetitive events may lead to an accumulative
cardiac damage. Traditional echocardiographic methods used to determine potential cardiac
changes in morphology or function are investigator-dependent and may be subject to
interference by cardiac pre- and afterload. Cardiac magnetic resonance imaging provides an
investigator-independent and objective method to quantify cardiac dimensions and function.
Delayed contrast enhancement MR imaging is a highly reproducible cardiovascular magnetic
resonance imaging technique to directly visualize myocardial edema, necrosis and fibrosis.
Objective
To use cardiac and delayed contrast enhancement magnetic resonance imaging in combination
with echocardiographic methods to quantify cardiac dysfunction after a single competitive
PSE event and to study post-exercise changes in morphology and function as well as the
post-exercise dynamics of specific markers of myocardial damage.
Methods
Cardiac and delayed contrast enhancement magnetic resonance imaging will be used in
combination with echocardiographic methods to repetitively investigate post-exercise cardiac
function and morphology in 10 elite athletes finishing the "Jungfrau Marathon". Biomarkers
of myocardial damage are assessed simultaneously.
Post-exercise dynamics of the outcome parameters are followed over a minimum of 7 days after
the exercise.
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Intervention Model: Single Group Assignment, Masking: Open Label, Primary Purpose: Basic Science
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