TY - JOUR T1 - Athlete’s heart JF - Heart JO - Heart SP - 1455 LP - 1461 DO - 10.1136/heart.89.12.1455 VL - 89 IS - 12 AU - Robert Fagard Y1 - 2003/12/01 UR - http://heart.bmj.com/content/89/12/1455.abstract N2 - Cardiac enlargement in athletes was already recognised by the end of the 19th century through percussion of the chest in cross country skiers, and was later confirmed by use of radiography and evidence from necropsy. The advent of echocardiography allowed investigators to gain a better insight into the heart of athletes, and these findings were in general confirmed by other techniques such as magnetic resonance imaging. The present review will focus on the impact of different sports and training on cardiac structure and function, and on electrocardiographic alterations associated with athlete’s heart. Left ventricle Cross sectional studies Physical exercise is associated with haemodynamic changes and alters the loading conditions of the heart. In dynamic exercise the emphasis is on movement with no or minimal development of force. The main haemodynamic features are increases in heart rate and stroke volume, the two components of cardiac output. Systemic vascular resistance drops but the net result is a slight to moderate rise in blood pressure. The load on the heart is predominantly that of volume. In static exercise force is developed with no or minimal movement. The haemodynamic consequences involve a slight elevation of cardiac output, caused by the increase of heart rate, and a more pronounced rise of blood pressure, resulting in a pressure load on the heart. From a theoretical point of view the haemodynamic alterations and the ventricular loading conditions during exercise could, in the long run, lead to left ventricular hypertrophy (LVH). Volume load would lead to enlargement of the left ventricular internal diameter and a proportional increase of wall thickness; this type of adaptation is termed eccentric LVH. The pressure load would induce thickening of the ventricular wall with unchanged internal dimension, or concentric LVH. It was suggested that these cardiac adaptations serve to normalise wall stress. Individual studies showed that cardiac adaptations … ER -