School of Sport, Exercise and Health Sciences, Loughborough University, Loughborough, Leicestershire, LE11 3TU, UK.
Sports Med. 2017 Mar;47(Suppl 1):51-63. doi: 10.1007/s40279-017-0694-2.
It is becoming increasingly clear that adaptations, initiated by exercise, can be amplified or reduced by nutrition. Various methods have been discussed to optimize training adaptations and some of these methods have been subject to extensive study. To date, most methods have focused on skeletal muscle, but it is important to note that training effects also include adaptations in other tissues (e.g., brain, vasculature), improvements in the absorptive capacity of the intestine, increases in tolerance to dehydration, and other effects that have received less attention in the literature. The purpose of this review is to define the concept of periodized nutrition (also referred to as nutritional training) and summarize the wide variety of methods available to athletes. The reader is referred to several other recent review articles that have discussed aspects of periodized nutrition in much more detail with primarily a focus on adaptations in the muscle. The purpose of this review is not to discuss the literature in great detail but to clearly define the concept and to give a complete overview of the methods available, with an emphasis on adaptations that are not in the muscle. Whilst there is good evidence for some methods, other proposed methods are mere theories that remain to be tested. 'Periodized nutrition' refers to the strategic combined use of exercise training and nutrition, or nutrition only, with the overall aim to obtain adaptations that support exercise performance. The term nutritional training is sometimes used to describe the same methods and these terms can be used interchangeably. In this review, an overview is given of some of the most common methods of periodized nutrition including 'training low' and 'training high', and training with low- and high-carbohydrate availability, respectively. 'Training low' in particular has received considerable attention and several variations of 'train low' have been proposed. 'Training-low' studies have generally shown beneficial effects in terms of signaling and transcription, but to date, few studies have been able to show any effects on performance. In addition to 'train low' and 'train high', methods have been developed to 'train the gut', train hypohydrated (to reduce the negative effects of dehydration), and train with various supplements that may increase the training adaptations longer term. Which of these methods should be used depends on the specific goals of the individual and there is no method (or diet) that will address all needs of an individual in all situations. Therefore, appropriate practical application lies in the optimal combination of different nutritional training methods. Some of these methods have already found their way into training practices of athletes, even though evidence for their efficacy is sometimes scarce at best. Many pragmatic questions remain unanswered and another goal of this review is to identify some of the remaining questions that may have great practical relevance and should be the focus of future research.
很明显,运动引起的适应可以通过营养来放大或缩小。已经讨论了各种方法来优化训练适应,其中一些方法已经进行了广泛的研究。迄今为止,大多数方法都集中在骨骼肌上,但值得注意的是,训练效果还包括其他组织(如大脑、血管)的适应、肠道吸收能力的提高、对脱水的耐受性增加以及文献中较少关注的其他影响。本文的目的是定义周期性营养(也称为营养训练)的概念,并总结运动员可用的各种方法。读者可参考其他几篇近期的综述文章,这些文章更详细地讨论了周期性营养的各个方面,主要侧重于肌肉的适应。本文的目的不是详细讨论文献,而是清楚地定义概念,并全面概述可用的方法,重点介绍非肌肉适应。虽然有些方法有很好的证据,但其他提出的方法只是有待验证的理论。“周期性营养”是指运动训练和营养的策略性联合使用,或仅营养的使用,其总体目标是获得支持运动表现的适应。有时使用“营养训练”一词来描述相同的方法,这些术语可以互换使用。在本文中,概述了周期性营养的一些最常见方法,包括“低训练”和“高训练”,以及分别具有低和高碳水化合物可用性的训练。特别是“低训练”受到了相当大的关注,并且已经提出了几种“低训练”的变体。“低训练”研究通常在信号和转录方面显示出有益的效果,但迄今为止,很少有研究能够显示出任何对性能的影响。除了“低训练”和“高训练”之外,还开发了“训练肠道”、“训练低脱水(减少脱水的负面影响)”和“训练各种补充剂”的方法,这些补充剂可能会在长期内增加训练适应。选择使用哪种方法取决于个体的具体目标,没有一种方法(或饮食)可以解决个体在所有情况下的所有需求。因此,适当的实际应用在于不同营养训练方法的最佳组合。这些方法中的一些已经在运动员的训练实践中找到了应用,尽管有时其效果的证据充其量也只是稀少的。还有许多实际问题没有答案,本文的另一个目标是确定一些可能具有重要实际意义且应成为未来研究重点的剩余问题。
