During recent years the echocardiographic procedure has been extented regarding the
evaluation of left ventricular imyo-cardial function during exertion. During exercise
echocardiography, body position is important for the correct assessmemt of cardiac
dimensions and function, particularly for the measurement of the cross-sectional diameters
of the left ventricle and diastolic myocardial function. Reliable parameters of left
ventricular function during exercise are left ventricular ejection fraction and endsystolic
left ventricular volume, but not enddiastolic left ventricular volume. The increase
of left ventricular ejection fraction during exercise up to submaximal exertion primarily
results in a reduction of endsystolic left ventricular volume and partially in a simultaneous
increase of enddiastolic left ventricular volume. In several cross-sectional studies
comparing untrained and endurance trained hearts a higher diastolic filling rate,
a higher maximal blood flow velocity of early diastolic passive left ventricular filling
and a higher early diastolic filling fraction at rest and during exercise could be
proved in endurance trained hearts. These training-induced adaptations of diastolic
left ventricular function have been confirmed by a longitudinal study with primarily
untrained young and older healthy subjects performing a heart rate controlled endurance
training programme. Stress echocardiographic and simultaneous spiroergometric investigations
indicated a correlation between the diastolic left ventricular function and the maximal
oxygen uptake. The currently availlable data on the sensitivity, the intraobserver
and interobserver variability of Doppler echocardiography have shown that this non-invasive
procedure is valid for the evaluation of the systolic and the diastolic myocardial
function at rest and during exercise. However, the procedure is limited to patients
where the ultra-sonographic assessment of cardiac structures is not considerrably
restricted. Furthermore, the reliability of stress Doppler echocardiography is dependent
considerably on the practical skills of the observer.
Key words
Muscular training - cardiac adaptation - physical exercise - radionuclide ventriculography
- stress echocardiography - Doppler sonography
