Monash University, Department of Nutrition Dietetics & Food, Australia.
Monash University, Department of Nutrition Dietetics & Food, Australia.
J Sci Med Sport. 2022 Oct;25(10):788-793. doi: 10.1016/j.jsams.2022.07.003. Epub 2022 Jul 12.
This study aimed to determine the impact of running and cycling exercise modalities on the magnitude of exercise-induced gastrointestinal syndrome (EIGS) and associated gastrointestinal symptoms (GIS).
Parallel group trial design.
Twenty-eight endurance athletes (male n = 14, female n = 14) completed 2 h running at 55 % of maximal oxygen uptake or cycling at 55 % of maximal aerobic power in T 35 °C and 22 % RH. Pre- and post-exercise blood samples were collected and analysed for markers of intestinal epithelial integrity perturbations (i.e., plasma intestinal fatty acid protein (I-FABP), soluble (s)CD14, and lipopolysaccharide binding protein (LBP)) and systemic inflammatory cytokines (i.e., plasma IL-1β, TNFα, IL-10, and IL-1ra). GIS were assessed pre-exercise and every 10 min during exercise.
Exercise-associated Δ for plasma I-FABP (191 and 434 pg‧ml) and LBP (-1228 and 315 ng‧ml) did not differ between running and cycling, respectively; however for sCD14 was higher (p = 0.030) on cycling (116 ng‧ml) vs running (96 ng‧ml). There were no differences in absolute pre- and post-exercise systemic inflammatory cytokine concentration, with large individual variation observed. Exercise-associated plasma TNF-α, (p = 0.041) and IL-10 (p = 0.019) responses were greater in running than cycling, but did not lead to a greater systemic inflammatory response profile (p = 0.305) between running (5.0arb.units) and cycling (-2.5arb.units). Although greater GIS incidence occurred in running (44 %) compared with cycling (25 %), there was no difference between groups for GIS severity.
When running and cycling exercise is performed with similar duration, intensity, ambient conditions, and with confounder control, the exercise modality does not substantially impact the magnitude of EIGS or associated GIS severity.
本研究旨在确定跑步和骑行运动方式对运动诱导胃肠道综合征(EIGS)程度和相关胃肠道症状(GIS)的影响。
平行组试验设计。
28 名耐力运动员(男性 n=14,女性 n=14)在 35°C 和 22%相对湿度下以 55%最大摄氧量进行 2 小时跑步或以 55%最大有氧功率进行骑行。在运动前后采集血液样本,并分析肠道上皮完整性扰动的标志物(即血浆肠脂肪酸结合蛋白(I-FABP)、可溶性(s)CD14 和脂多糖结合蛋白(LBP))和全身炎症细胞因子(即血浆 IL-1β、TNFα、IL-10 和 IL-1ra)。在运动前和运动期间每 10 分钟评估一次 GIS。
运动相关的血浆 I-FABP(191 和 434 pg/ml)和 LBP(-1228 和 315 ng/ml)的变化在跑步和骑行之间没有差异;然而,sCD14 在骑行(116 ng/ml)时高于跑步(96 ng/ml)(p=0.030)。绝对的运动前后全身炎症细胞因子浓度没有差异,观察到个体差异很大。与骑行相比,跑步时运动相关的血浆 TNF-α(p=0.041)和 IL-10(p=0.019)反应更大,但跑步(5.0 arb.units)和骑行(-2.5 arb.units)之间的全身炎症反应谱没有更大差异(p=0.305)。虽然跑步时 GIS 的发生率(44%)高于骑行(25%),但两组 GIS 的严重程度没有差异。
当以相似的持续时间、强度、环境条件进行跑步和骑行运动,并且进行混杂因素控制时,运动方式不会显著影响 EIGS 的程度或相关 GIS 的严重程度。
