Division of Applied Cachexia Research, Department of Cardiology, Charité-Universitätsmedizin Berlin, Germany.
Int J Cardiol. 2012 Apr 19;156(2):186-91. doi: 10.1016/j.ijcard.2010.10.139. Epub 2010 Dec 9.
Iron deficiency (ID) is one of the most important metabolic dysfunctions. Athletic performance depends on oxygen transport and mitochondrial efficiency, thus on optimal iron balance. We hypothesised that physical extremes result in ID in elite athletes and that the short recovery period may be insufficient to allow a lasting replenishment of iron reserves.
Iron metabolism was examined in 20 elite rowing athletes and 10 professional soccer players at the end of a competitive season, after recuperation and during pre-season training. Absolute ID values were defined as ferritin <30 μg/L, functional ID as ferritin 30-99 μg/L or 100-299 μg/L+transferrin saturation <20%.
At the end of season, 27% of all athletes had absolute ID and 70% showed functional ID. Absolute iron depletion was not generally restored after recuperation and observed at all time points in 14% of the athletes. Although athletes with initially low ferritin levels showed a slight increase during recuperation (p<0.09), these increases remained within borderline levels. Furthermore, 10% showed borderline haemoglobin levels, suggestive of mild anaemia, as defined by the World Health Organisation.
A significant proportion of professional athletes have ID, independent of the training mode. Although recuperation seems to allow a certain recovery of iron storage, particularly in athletes with initially low ferritin levels, this retrieval was insufficient to fully normalise reduced iron levels. Therefore, iron status should be carefully monitored during the various training and competitive periods in elite athletes. An adequate iron supplementation may be needed to maintain balanced iron stores.
铁缺乏症(ID)是最重要的代谢功能紊乱之一。运动表现取决于氧气输送和线粒体效率,因此取决于最佳的铁平衡。我们假设,身体极限会导致精英运动员出现 ID,而短暂的恢复期可能不足以持久补充铁储备。
在一个竞技赛季结束后、恢复期和赛季前训练期间,我们检查了 20 名精英赛艇运动员和 10 名职业足球运动员的铁代谢情况。绝对铁缺乏症的定义为铁蛋白<30μg/L,功能性铁缺乏症为铁蛋白 30-99μg/L 或 100-299μg/L+转铁蛋白饱和度<20%。
在赛季结束时,所有运动员中有 27%存在绝对铁缺乏症,70%存在功能性铁缺乏症。绝对铁耗竭在恢复期后并未普遍恢复,在 14%的运动员中观察到所有时间点均存在绝对铁缺乏症。尽管最初铁蛋白水平较低的运动员在恢复期内略有增加(p<0.09),但这些增加仍处于临界水平。此外,10%的运动员出现了血红蛋白临界值,表明存在轻度贫血,这是世界卫生组织定义的。
相当一部分职业运动员存在铁缺乏症,与训练模式无关。尽管恢复期似乎允许铁储存一定程度的恢复,特别是在最初铁蛋白水平较低的运动员中,但这种恢复不足以完全使铁水平正常化。因此,在精英运动员的各个训练和比赛期间,应仔细监测铁状态。可能需要进行适当的铁补充,以维持平衡的铁储存。
