This study explored the effects of physical activity (PA) and ambient temperature on water turnover and hydration status. Five-hundred seventy three healthy men and women (aged 20–60 years) from Spain, Greece and Germany self-reported PA, registered all food and beverage intake, and collected 24-h urine during seven consecutive days. Fasting blood samples were collected at the onset and end of the study. Food moisture was assessed using nutritional software to account for all water intake which was subtracted from daily urine volume to allow calculation of non-renal water loss ( i.e. , mostly sweating). Hydration status was assessed by urine and blood osmolality. A negative association was seen between ambient temperature and PA ( r = ?0.277; p < 0.001). Lower PA with high temperatures did not prevent increased non-renal water losses ( i.e. , sweating) and elevated urine and blood osmolality ( r = 0.218 to 0.163 all p < 0.001). When summer and winter data were combined PA was negatively associated with urine osmolality ( r = ?0.153; p = 0.001). Our data suggest that environmental heat acts to reduce voluntary PA but this is not sufficient to prevent moderate dehydration (increased osmolality). On the other hand, increased PA is associated with improved hydration status ( i.e. , lower urine and blood osmolality).
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机译:这项研究探讨了体力活动(PA)和环境温度对水循环和水合状态的影响。来自西班牙,希腊和德国的573名健康男性(年龄在20-60岁之间)自我报告了PA,记录了所有食物和饮料的摄入量,并连续7天收集了24小时尿液。在研究开始和结束时收集空腹血液样品。使用营养软件评估食物的水分含量,以计算所有摄入水量,然后从每日尿量中减去所有水分摄入量,以计算出非肾脏失水量(即大部分出汗)。通过尿液和血液渗透压评估水合状态。在环境温度和PA之间观察到负相关(r =±0.277; p <0.001)。在高温下降低PA不能阻止非肾脏失水(即出汗)的增加以及尿液和血液渗透压的升高(r = 0.218至0.163,所有p <0.001)。当夏季和冬季数据结合在一起时,PA与尿渗透压呈负相关(r =±0.153; p = 0.001)。我们的数据表明,环境热能减少自愿性PA,但这不足以防止中等程度的脱水(渗透压升高)。另一方面,PA增加与水合状态改善(即尿液和血液渗透压降低)有关。
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