Effects of marathon running on the trace minerals chromium, cobalt, nickel, and molybdenum
Christian E. Berger, Andreas Kröner, Rainer Kluger, Ramon Baron, Ilse Steffan, Alfred Engel
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引用次数: 15
Abstract
There is considerable debate on the effects of endurance stress on concentrations of trace minerals and as to whether athletes, who restrict calories to maintain low body weights, could comprise their trace mineral levels. In a prospective study, the effect of running a marathon course on whole blood levels of chromium, cobalt, nickel, and molybdenum was evaluated. Blood samples of 13 test runners (2 females, 11 males) were obtained twice before, immediately after, and 1 week after running a marathon. The analyses of the concentrations in whole blood were performed using graphite tube atom absorption spectrometry (GFAAS). The chromium level of the samples ranged between 1.3 ng/g and 19.3 ng/g. Mean chromium concentrations were elevated before and immediately after the marathon (4.3–7.4 ng/g) and decreased to an average of 2.7 ng/g after the marathon course. The difference between chromium concentrations obtained immediately after and 1 week after the marathon course was significant. Levels of chromium exhibited a high variability; however, the percentage of concentrations below the detection limit was 0%. Similarly, owing to different individual response to strenuous exercise, concentrations of nickel, molybdenum, and cobalt were highly variable, exceeding normal limits by 47.3%, 25.1%, and 4.6%, respectively. Mean concentrations of nickel, cobalt, and molybdenum ranged from 4.3–22.7 ng/g (Ni), 0.16–2.2 ng/g (Co), and 0.2–0.7 ng/g (Mo); the difference was not significant at any time. The current study was able to show that running a marathon course does not lead to significant changes in the whole blood levels of cobalt, nickel and molybdenum. Chromium levels, however, were significantly decreased immediately after the marathon course, a finding that corresponds well with previous observations of increased mobilization of chromium from body stores and subsequently elevated serum levels. J. Trace Elem. Exp. Med. 15:201–209, 2002. © 2002 Wiley-Liss, Inc.
马拉松对微量元素铬、钴、镍和钼的影响
关于耐力压力对微量矿物质浓度的影响,以及为了保持低体重而限制热量的运动员是否可以包括他们的微量矿物质水平,存在着相当大的争论。在一项前瞻性研究中,评估了跑马拉松对全血铬、钴、镍和钼水平的影响。13名测试跑者(2名女性,11名男性)在马拉松比赛前、比赛后和比赛后1周采集了两次血样。使用石墨管原子吸收光谱法(GFAAS)对全血中的浓度进行分析。样品的铬含量在1.3纳克/克至19.3纳克/克之间。平均铬浓度在马拉松比赛前和比赛后立即升高(4.3–7.4纳克/克),马拉松比赛后降至平均2.7纳克/克。马拉松比赛后即刻和1周后获得的铬浓度之间的差异是显著的。铬的含量变化很大;然而,低于检测限的浓度百分比为0%。同样,由于个体对剧烈运动的反应不同,镍、钼和钴的浓度变化很大,分别超过正常限值47.3%、25.1%和4.6%。镍、钴和钼的平均浓度范围为4.3–22.7纳克/克(Ni)、0.16–2.2纳克/克,以及0.2–0.7纳克/克;差异在任何时候都不显著。目前的研究表明,参加马拉松比赛不会导致全血中钴、镍和钼含量的显著变化。然而,在马拉松比赛结束后,铬水平立即显著下降,这一发现与之前观察到的铬从身体储备中动员增加以及随后血清水平升高的结果非常一致。J.Trace Elem。Exp.Med.15:201–2092002。©2002 Wiley-Liss,股份有限公司。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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