先进的鞋类技术,而非酮单酯的急性摄入,可提高中长跑运动员的跑步经济性。
Advanced Footwear Technology, But Not Acute Ingestion of a Ketone Monoester, Improves Running Economy in Middle- and Long-Distance Runners.
作者信息
Brady Aidan J, Moynagh Megan B, Devenney Simon, Egan Brendan
机构信息
School of Health and Human Performance, Dublin City University, Dublin, IRELAND.
出版信息
Med Sci Sports Exerc. 2025 Jul 1;57(7):1559-1569. doi: 10.1249/MSS.0000000000003682. Epub 2025 Feb 25.
PURPOSE
This study examined the separate and combined effects of advanced footwear technology and acute ingestion of a ketone monoester on running economy (RE), time to exhaustion, and other metabolic and cardiorespiratory parameters.
METHODS
In a four-condition, placebo-controlled, randomized crossover design, 18 middle- and long-distance runners (male/female = 10/8, V̇O 2peak = 59.4 ± 7.2 mL·kg -1 ·min -1 ) completed five 8-min stages of submaximal running (male = 10-14 km⋅h -1 , female = 9-13 km⋅h -1 ) on a motorized treadmill, immediately followed by a ramp test to volitional exhaustion. Participants consumed 500 mL of either a 10% carbohydrate solution (CHO) or 500 mg·kg -1 body mass of an (R)-3-hydroxybutyl (R)-3-hydroxybutyrate ketone monoester with flavored water (KME) 20 min before exercise, and an additional 300 mL of the 10% carbohydrate solution or 250 mg·kg -1 body mass of KME during exercise, while wearing either Nike Pegasus Turbo (PEG) or Nike ZoomX Vaporfly Next% 3 (VAP) running shoes. The four randomized conditions were PEG + CHO, PEG + KME, VAP + CHO, and VAP + KME.
RESULTS
RE was significantly improved during the third and the fourth submaximal running stages in VAP + CHO and VAP + KME compared with PEG + CHO and PEG + KME (all P < 0.05, ES = 0.53-0.84). RE was also improved during the fifth submaximal running stage in VAP + KME compared with PEG + CHO, and in VAP + CHO and VAP + KME compared with PEG + KME (all P < 0.05, ES = 0.56-0.66). No differences in RE were found between CHO and KME conditions. Time to exhaustion was significantly longer in VAP + CHO (381 ± 125 s) than PEG + CHO (356 ± 140 s, P = 0.023, ES = 0.18) and PEG + KME (329 ± 131 s, P < 0.001, ES = 0.40) and in VAP + KME (375 ± 125 s) than PEG + KME ( P < 0.001, ES = 0.35).
CONCLUSIONS
Advanced footwear technology, but not the acute ingestion of a ketone monoester, improved the RE of trained male and female middle- and long-distance runners at submaximal running speeds.
目的
本研究探讨了先进的鞋类技术和急性摄入酮单酯对跑步经济性(RE)、运动至疲劳时间以及其他代谢和心肺参数的单独及联合影响。
方法
在一项四条件、安慰剂对照、随机交叉设计中,18名中长跑运动员(男/女 = 10/8,最大摄氧量 = 59.4 ± 7.2 mL·kg-1·min-1)在电动跑步机上完成五个8分钟的次最大强度跑步阶段(男性 = 10 - 14 km⋅h-1,女性 = 9 - 13 km⋅h-1),随后立即进行递增负荷测试直至自愿疲劳。参与者在运动前20分钟饮用500 mL的10%碳水化合物溶液(CHO)或每千克体重500 mg的(R)-3-羟基丁基(R)-3-羟基丁酸酯酮单酯加调味水(KME),并在运动期间额外饮用300 mL的10%碳水化合物溶液或每千克体重250 mg的KME,同时穿着耐克飞马Turbo(PEG)或耐克ZoomX Vaporfly Next% 3(VAP)跑鞋。四个随机条件分别为PEG + CHO、PEG + KME、VAP + CHO和VAP + KME。
结果
与PEG + CHO和PEG + KME相比,VAP + CHO和VAP + KME在第三和第四次最大强度跑步阶段的RE显著改善(所有P < 0.05,效应量 = 0.53 - 0.84)。与PEG + CHO相比,VAP + KME在第五次最大强度跑步阶段的RE也有所改善,与PEG + KME相比,VAP + CHO和VAP + KME在该阶段的RE同样有所改善(所有P < 0.05,效应量 = 0.56 - 0.66)。CHO和KME条件之间的RE没有差异。VAP + CHO(381 ± 125秒)的运动至疲劳时间显著长于PEG + CHO(356 ± 140秒,P = 0.023,效应量 = 0.18)和PEG + KME(329 ± 131秒,P < 0.001,效应量 = 0.40),VAP + KME(375 ± 125秒)的运动至疲劳时间显著长于PEG + KME(P < 0.001,效应量 = 0.35)。
结论
先进的鞋类技术可改善训练有素的男女中长跑运动员在次最大强度跑步速度下的RE,而急性摄入酮单酯则无此效果。
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