Department of Prevention and Sports Medicine, Technische Universität München, Munich, Germany.
Eur J Prev Cardiol. 2012 Oct;19(5):1194-204. doi: 10.1177/1741826711422455. Epub 2011 Sep 1.
Correction for body composition is recommended for appropriate interpretation of equivocally altered cardiac dimensions. We sought to investigate the impact of body composition on athletes' heart.
Left ventricular mass (LVM), septal wall thickness (SWT) and end-diastolic diameter (LVEDD) were measured by echocardiography in 1051 elite athletes (26% female, aged 18-40 years) and in 338 sedentary controls matched for age, gender and body size. Body fat was determined by skinfold thickness measurements.
Normative ranges are provided for LVM, LVEDD and SWT scaled to body surface area (BSA), height, height(2.7) and fat-free mass (FFM). The strongest correlation was found for FFM (r = 0.70; 0.64; 0.49; p < 0.001 each). LVM, LVEDD and SWT differed significantly (p < 0.05) between athletes of low, moderate and high dynamic disciplines. Correcting LVEDD for height(2.7) eliminated these differences (p > 0.05), whereas LVM and SWT remained significantly increased in high dynamic athletes despite correction for body size. Gender differences were consistently eliminated by scaling LVEDD to FFM(0.33) and SWT to BSA, but scaled LVM remained significantly increased in male athletes. Compared to sedentary controls, significant differences in LVEDD and SWT disappeared after correction for height(2.7) and FFM, but LVM again remained significantly higher in athletes.
Adaptation of left ventricular dimensions to exercise training is closely related to body composition, in particular to FFM. The normative ranges for LVEDD, SWT and LVM scaled to body size aid interpretation of equivocal alterations in elite athletes. However, the increase of LVM in particular reveals exercise-induced adaptations beyond these associations.
为了正确解释心脏尺寸的变化,建议对身体成分进行校正。我们试图研究身体成分对运动员心脏的影响。
通过超声心动图测量 1051 名精英运动员(26%为女性,年龄 18-40 岁)和 338 名年龄、性别和体型匹配的久坐对照组的左心室质量(LVM)、室间隔壁厚度(SWT)和舒张末期直径(LVEDD)。体脂通过皮褶厚度测量确定。
提供了 LVM、LVEDD 和 SWT 按体表面积(BSA)、身高、身高(2.7)和去脂体重(FFM)进行校正的正常值范围。与其他指标相比,FFM 的相关性最强(r = 0.70;0.64;0.49;p < 0.001)。运动员的低、中、高动态学科之间的 LVM、LVEDD 和 SWT 差异显著(p < 0.05)。用身高(2.7)校正 LVEDD 可消除这些差异(p > 0.05),但校正体型后,高动态运动员的 LVM 和 SWT 仍显著增加。用 FFM(0.33)校正 LVEDD 和 BSA 校正 SWT 可消除性别差异,但校正后男性运动员的 LVM 仍显著增加。与久坐对照组相比,用身高(2.7)和 FFM 校正后,LVEDD 和 SWT 的差异消失,但运动员的 LVM 仍显著较高。
左心室尺寸对运动训练的适应与身体成分密切相关,特别是与 FFM 相关。LVEDD、SWT 和 LVM 按体型校正的正常值范围有助于解释精英运动员心脏尺寸的变化。然而,LVM 的增加尤其揭示了运动引起的适应超越了这些关联。
