Exercise-induced cardiac hypertrophy. Fact or fallacy?

After a century of research reports, the notion of exercise-induced cardiac hypertrophy is still an expected adaptation to regular exercise training. Experimental evidence reported both in animals and in humans over the past 3 decades suggests, however, that this conclusion may not be totally warranted. Data from 20 years of echocardiographic investigations of athletes and nonathletes indicate that differences in cardiac dimensions are not very large. Cross-sectional comparisons of over 1000 athletes and roughly 800 control individuals indicate an average difference of 1.6 mm in left ventricular (LV) wall thickness and of 5.3 mm in end-diastolic diameter. Differences reported after training programmes lasting 4 to 52 weeks are even smaller, with average increases of 0.3 mm in LV wall thickness and only 2.1mm in end-diastolic diameter. This article reviews data from animal and human studies concerning cardiac morphology and exercise training to show that the traditional interpretation of the literature has failed to take into account several methodological considerations or factors that may act as confounders in the interpretation of data. Results from animal studies indicate that the observation of cardiac hypertrophy is equivocal at best. In many reports the reported changes in heart size are not significant, and in instances where significant changes are reported these may be seen to be confounded by a number of factors. For example, in rats the reported training-induced hypertrophy may be related to gender differences in the responsiveness of cardiac dimensions or body and/or organ growth rather than to true heart hypertrophy. Furthermore, the interpretation of results from training studies in rats has often been based on the assumption that the metabolic, haemodynamic and thermoregulatory requirements of swimming and running exercise in rats are similar, which may in fact not be the case. In addition, the use of the heart weight/body weight ratio as an index of cardiac hypertrophy, although widespread in animal studies, is open to criticism owing to failure to control for concurrent changes in body weight. Several methodological considerations and factors confounding the outcome of exercise training in humans have also been omitted when interpreting echocardiographic cross-sectional and longitudinal findings. For example, in adult echocardiography the practical resolution of the echocardiographic technique amounts to roughly 2.2mm. It follows, therefore, that unless differences of changes in cardiac dimensions exceed the limit of resolution they are meaningless although statistically significant.(ABSTRACT TRUNCATED AT 400 WORDS)