Sahlin Kent
Åstrand Laboratory of Work Physiology, GIH, The Swedish School of Sport and Health Sciences, Lidingövägen 1, Box 5626, 11486, Stockholm, Sweden,
Sports Med. 2014 Nov;44 Suppl 2(Suppl 2):S167-73. doi: 10.1007/s40279-014-0256-9.
The high-energy demand during high-intensity exercise (HIE) necessitates that anaerobic processes cover an extensive part of the adenosine triphosphate (ATP) requirement. Anaerobic energy release results in depletion of phosphocreatine (PCr) and accumulation of lactic acid, which set an upper limit of anaerobic ATP production and thus HIE performance. This report focuses on the effects of training and ergogenic supplements on muscle energetics and HIE performance. Anaerobic capacity (i.e. the amount of ATP that can be produced) is determined by the muscle content of PCr, the buffer capacity and the volume of the contracting muscle mass. HIE training can increase buffer capacity and the contracting muscle mass but has no effect on the concentration of PCr. Dietary supplementation with creatine (Cr), bicarbonate, or beta-alanine has a documented ergogenic effect. Dietary supplementation with Cr increases muscle Cr and PCr and enhances performance, especially during repeated short periods of HIE. The ergogenic effect of Cr is related to an increase in temporal and spatial buffering of ATP and to increased muscle buffer capacity. Bicarbonate loading increases extracellular buffering and can improve performance during HIE by facilitating lactic acid removal from the contracting muscle. Supplementation with beta-alanine increases the content of muscle carnosine, which is an endogenous intracellular buffer. It is clear that performance during HIE can be improved by interventions that increase the capacity of anaerobic ATP production, suggesting that energetic constraints set a limit for performance during HIE.
高强度运动(HIE)期间对能量的高需求使得无氧代谢过程必须满足三磷酸腺苷(ATP)需求的很大一部分。无氧能量释放会导致磷酸肌酸(PCr)耗尽和乳酸积累,这为无氧ATP生成以及HIE表现设定了上限。本报告重点关注训练和促力补充剂对肌肉能量代谢和HIE表现的影响。无氧能力(即能够产生的ATP量)由PCr的肌肉含量、缓冲能力以及收缩肌肉质量的大小决定。HIE训练可以增加缓冲能力和收缩肌肉质量,但对PCr浓度没有影响。补充肌酸(Cr)、碳酸氢盐或β-丙氨酸的饮食具有已被证实的促力作用。补充Cr的饮食会增加肌肉中的Cr和PCr,并提高运动表现,尤其是在反复短时间的HIE期间。Cr的促力作用与ATP的时间和空间缓冲增加以及肌肉缓冲能力增强有关。碳酸氢盐负荷增加细胞外缓冲,并可通过促进乳酸从收缩肌肉中清除来改善HIE期间的表现。补充β-丙氨酸会增加肌肉肌肽的含量,肌肽是一种内源性细胞内缓冲剂。显然,通过增加无氧ATP生成能力的干预措施可以提高HIE期间的表现,这表明能量限制为HIE期间的表现设定了一个限度。