Ben J. Lee, Tessa R. Flood, Ania M. Hiles, Ella F. Walker, Lucy E V Wheeler, Kimberly M Ashdown, M. Willems, Rianne Costello, Luke D. Greisler, Phebe A Romano, Garrett W. Hill, M. Kuennen
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Venous blood samples were taken at rest and 20, 60, and 240 min after exercise to measure enterocyte damage (intestinal fatty acid-binding protein); microbial translocation (soluble CD14, lipopolysaccharide-binding protein); and interleukins 6, interleukins 10, and interleukins 1 receptor antagonist. Exercise increased rectal temperature (by ∼2.8 °C) and heart rate (by ∼123 beats/min) in each condition. Blackcurrant supplementation led to a ∼12% reduction in lactulose/rhamnose ratio (p < .0034) and enterocyte damage (∼40% reduction in intestinal fatty acid-binding protein area under the curve; p < .0001) relative to placebo. No between-condition differences were observed immediately after exercise for lipopolysaccharide-binding protein (mean, 95% confidence interval [CI]; +80%, 95% CI [+61%, +99%]); soluble CD14 (+37%, 95% CI [+22%, +51%]); interleukins 6 (+494%, 95% CI [+394%, +690%]); interleukins 10 (+288%, 95% CI [+105%, +470%]); or interleukins 1 receptor antagonist (+47%, 95% CI [+13%, +80%]; all time main effects). No between-condition differences for these markers were observed after 60 or 240 min of recovery. 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引用次数: 3
摘要
本研究研究了富含花青素的黑加仑提取物摄入7天对运动性热应激后小肠通透性、肠细胞损伤、微生物易位和炎症的影响。12名娱乐性活动的男性(最大有氧能力= 55.6±6.0 ml·kg-1·min-1)在环境室(34°C, 40%相对湿度)中(安慰剂/黑加仑,随机双盲交叉)两次(70%最大摄氧量)跑60分钟。通过4小时尿中乳果糖和鼠李糖的排泄来评估渗透性,并以乳果糖/鼠李糖的比值表示。静息及运动后20、60、240 min取静脉血测定肠细胞损伤(肠脂肪酸结合蛋白);微生物易位(可溶性CD14,脂多糖结合蛋白);白细胞介素6,白细胞介素10和白细胞介素1受体拮抗剂。在每种情况下,运动增加直肠温度(约2.8°C)和心率(约123次/分钟)。补充黑加仑导致乳果糖/鼠李糖比率降低~ 12% (p < 0.0034)和肠细胞损伤(曲线下肠道脂肪酸结合蛋白面积减少~ 40%);P < 0.0001)。运动后立即观察到脂多糖结合蛋白的条件间差异(平均值,95%可信区间[CI];+80%, 95% ci [+61%, +99%]);可溶性CD14 (+37%, 95% CI [+22%, +51%]);白细胞介素6 (+494%,95% CI [+394%, +690%]);白细胞介素10 (+288%,95% CI [+105%, +470%]);或白细胞介素1受体拮抗剂(+47%,95% CI [+13%, +80%];所有时间的主要影响)。在恢复60或240分钟后,这些指标没有观察到条件之间的差异。黑加仑提取物保留胃肠道屏障;然而,在亚临床水平,这对微生物易位和下游炎症过程没有影响。
Anthocyanin-Rich Blackcurrant Extract Preserves Gastrointestinal Barrier Permeability and Reduces Enterocyte Damage but Has No Effect on Microbial Translocation and Inflammation After Exertional Heat Stress.
This study investigated the effects of 7 days of 600 mg/day anthocyanin-rich blackcurrant extract intake on small intestinal permeability, enterocyte damage, microbial translocation, and inflammation following exertional heat stress. Twelve recreationally active men (maximal aerobic capacity = 55.6 ± 6.0 ml·kg-1·min-1) ran (70% VO2max) for 60 min in an environmental chamber (34 °C, 40% relative humidity) on two occasions (placebo/blackcurrant, randomized double-blind crossover). Permeability was assessed from a 4-hr urinary excretion of lactulose and rhamnose and expressed as a ratio of lactulose/rhamnose. Venous blood samples were taken at rest and 20, 60, and 240 min after exercise to measure enterocyte damage (intestinal fatty acid-binding protein); microbial translocation (soluble CD14, lipopolysaccharide-binding protein); and interleukins 6, interleukins 10, and interleukins 1 receptor antagonist. Exercise increased rectal temperature (by ∼2.8 °C) and heart rate (by ∼123 beats/min) in each condition. Blackcurrant supplementation led to a ∼12% reduction in lactulose/rhamnose ratio (p < .0034) and enterocyte damage (∼40% reduction in intestinal fatty acid-binding protein area under the curve; p < .0001) relative to placebo. No between-condition differences were observed immediately after exercise for lipopolysaccharide-binding protein (mean, 95% confidence interval [CI]; +80%, 95% CI [+61%, +99%]); soluble CD14 (+37%, 95% CI [+22%, +51%]); interleukins 6 (+494%, 95% CI [+394%, +690%]); interleukins 10 (+288%, 95% CI [+105%, +470%]); or interleukins 1 receptor antagonist (+47%, 95% CI [+13%, +80%]; all time main effects). No between-condition differences for these markers were observed after 60 or 240 min of recovery. Blackcurrant extract preserves the GI barrier; however, at subclinical levels, this had no effect on microbial translocation and downstream inflammatory processes.
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The International Journal of Sport Nutrition and Exercise Metabolism (IJSNEM) publishes original scientific investigations and scholarly reviews offering new insights into sport nutrition and exercise metabolism, as well as articles focusing on the application of the principles of biochemistry, physiology, and nutrition to sport and exercise. The journal also offers editorials, digests of related articles from other fields, research notes, and reviews of books, videos, and other media releases.
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