Wroble Kymberly A, Trott Morgan N, Schweitzer George G, Rahman Rabia S, Kelly Patrick V, Weiss Edward P
Department of Nutrition and Dietetics, Saint Louis University, St. Louis, MO, USA.
Division of Geriatrics and Nutritional Science, Washington University School of Medicine, St. Louis, MO, USA.
J Sports Med Phys Fitness. 2019 Apr;59(4):600-607. doi: 10.23736/S0022-4707.18.08318-4. Epub 2018 Apr 4.
Low-carbohydrate, ketogenic diets cause mild, subclinical systemic acidosis. Anaerobic exercise performance is limited by acidosis. Therefore, we evaluated the hypothesis that a low-carbohydrate, ketogenic diet impairs anaerobic exercise performance, as compared to a high-carbohydrate diet.
Sixteen men and women (BMI, 23±1 kg/m2, age 23±1 years) participated in a randomized-sequence, counterbalanced crossover study in which they underwent exercise testing after 4 days of either a low-carbohydrate, ketogenic diet (LC; <50 g/day and <10% of energy from carbohydrates) or a high-carbohydrate diet (HC; 6-10 g/kg/day carbohydrate). Dietary compliance was assessed with nutrient analysis of diet records, and with measures of urine pH and ketones. Anaerobic exercise performance was evaluated with the Wingate anaerobic cycling test and the yo-yo intermittent recovery test.
The diets were matched for total energy (LC: 2333±158 kcal/d; HC: 2280±160 kcal/d; P=0.65) but differed in carbohydrate content (9±1% vs. 63±2% of energy intake; P<0.001). LC resulted in lower urine pH (5.9±0.1 vs. 6.3±0.2, P=0.004) and the appearance of urine ketones in every participant. LC resulted in 7% lower peak power (801±58 watts vs. 857±61 watts, P=0.008) and 6% lower mean power (564±50 watts vs. 598±51 watts, P=0.01) during the Wingate Test. Total distance ran in the yo-yo intermittent recovery test was 15% less after LC diet (887±139 vs. 1045±145 meters, P=0.02).
Short-term low-carbohydrate, ketogenic diets reduce exercise performance in activities that are heavily dependent on anaerobic energy systems. These findings have clear performance implications for athletes, especially for high-intensity, short duration activities and sports.
低碳水化合物生酮饮食会导致轻度、亚临床系统性酸中毒。无氧运动表现受酸中毒限制。因此,我们评估了与高碳水化合物饮食相比,低碳水化合物生酮饮食会损害无氧运动表现这一假设。
16名男性和女性(体重指数,23±1kg/m²,年龄23±1岁)参与了一项随机序列、平衡交叉研究,他们在采用低碳水化合物生酮饮食(LC;<50克/天且碳水化合物供能<10%)或高碳水化合物饮食(HC;6 - 10克/千克/天碳水化合物)4天后接受运动测试。通过饮食记录的营养分析以及尿液pH值和酮体测量来评估饮食依从性。采用温盖特无氧自行车测试和溜溜球间歇性恢复测试评估无氧运动表现。
两种饮食的总能量相匹配(LC:2333±158千卡/天;HC:2280±160千卡/天;P = 0.65),但碳水化合物含量不同(能量摄入的9±1%对63±2%;P<0.001)。LC导致尿液pH值降低(5.9±0.1对6.3±0.2,P = 0.004),且每位参与者尿液中均出现酮体。在温盖特测试中,LC导致峰值功率降低7%(801±58瓦对857±61瓦,P = 0.008),平均功率降低6%(564±50瓦对598±51瓦,P = 0.01)。采用LC饮食后,溜溜球间歇性恢复测试中的总跑步距离减少了15%(887±139米对1045±145米,P = 0.02)。
短期低碳水化合物生酮饮食会降低严重依赖无氧能量系统的活动中的运动表现。这些发现对运动员,尤其是高强度、短时间的活动和运动有着明确的表现影响。
