Therefore, we assumed that

measuring changes in foot volu

Therefore, we assumed that

measuring changes in foot volumes using plethysmography was an accurate method as well. A limitation in our study is the fact that we did not determine total body water as it has been GF120918 mouse reported in studies investigating changes in total body water during exercise for example through the diluted isotope method [42, 43]. This might provide more insight into the hydration status in ultra-marathoners, since we can only assume that total body water was increased in the slower runners leading to peripheral oedemas in these subjects. Furthermore, we did not ask our athletes about wearing compression stockings [47]. Elastic compression stockings can prevent the development of oedema in long-haul

flights [48]. It would be interesting to determine in future field-studies, whether compression stockings have an influence on the development of peripheral BIBF 1120 supplier oedemas in ultra-marathoners. The foot swelling might also be a high protein interstitial space fluid swelling and may be associated with markers of skeletal muscle damage. Leg swelling might also be due to venous insufficiency with a higher prevalence at advanced ages [49]. However, when plotting changes in foot volume versus age, we found no association between changes in foot volume and an increase in age (Figure 10). Figure 10 The change in the volume of the right foot was not associated with the age of the subjects ( r = 0.01, p = 0.91). Conclusions In summary, this study demonstrated that fluid intake was positively related to the volume of the foot in 100-km ultra-marathoners. DNA Damage inhibitor An increase in the foot volume

occurred in athletes with an increased fluid intake. In addition, slower running speed was associated (-)-p-Bromotetramisole Oxalate with an increase in the foot volume and the change in foot volume was negatively correlated to the change in plasma [Na+]. Therefore, we concluded that fluid overload occurred in slower runners and was responsible for the development of oedemas in the foot. In addition, post-race plasma [Na+] decreased in those runners. Our data support the finding that fluid overload is the main risk factor for developing EAH [19–21]. For practical application, athletes performing an ultra-marathon should be aware that excessive drinking with fluid overload increases the risk for EAH [19–21] and can lead to the development of peripheral oedemas in the foot. Acknowledgements The authors thank the race director of ’100 km Lauf Biel’ for his support to perform this study. We are in great debt to the athletes who enabled us for the data collection. References 1. Knechtle B, Senn O, Imoberdorf R, Joleska I, Wirth A, Knechtle P, Rosemann T: Maintained total body water content and serum sodium concentrations despite body mass loss in female ultra-runners drinking ad libitum during a 100 km race. Asia Pac J Clin Nutr 2010, 19:83–90.PubMed 2.

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