Current knowledge of the physiological, biomechanical, and sensory effects of the cycle to run transition in the Olympic triathlon (1.5 km, 10 km, 40 km) is reviewed and implications for the training of junior and elite triathletes are discussed. Triathlon running elicits hyperventilation, increased heart rate, decreased pulmonary compliance, and exercise induced hypoxaemia. This may be due to exercise intensity, ventilatory muscle fatigue, dehydration, muscle fibre damage, a shift in metabolism towards fat oxidation, and depleted glycogen stores after a 40 km cycle. The energy cost (CR) of running during the cycle to run transition is also increased over that of control running. The increase in CR varies from 1.6% to 11.6% and is a reflection of triathlete ability level. This increase may be partly related to kinematic alterations, but research suggests that most biomechanical parameters are unchanged. A more forward leaning trunk inclination is the most significant observation reported. Running pattern, and thus running economy, could also be influenced by sensorimotor perturbations related to the change in posture. Technical skill in the transition area is obviously very important. The conditions under which the preceding cycling section is performed-that is, steady state or stochastic power output, drafting or non-drafting-are likely to influence the speed of adjustment to transition. The extent to which a decrease in the average 10 km running speed occurs during competition must be investigated further. It is clear that the higher the athlete is placed in the field at the end of the bike section, the greater the importance to their finishing position of both a quick transition area time and optimal adjustment to the physiological demands of the cycle to run transition. The need for, and current methods of, training to prepare junior and elite triathletes for a better transition are critically reviewed in light of the effects of sequential cycle to run exercise.

译文

回顾了有关奥林匹克铁人三项运动 (1.5千米、10千米、40千米) 中运转周期的生理,生物力学和感觉作用的最新知识,并讨论了对初级和精英铁人三项运动员训练的影响。铁人三项跑步会引起过度换气,心率加快,肺顺应性降低以及运动引起的低氧血症。这可能是由于运动强度,通气性肌肉乏力,脱水,肌纤维损伤,代谢向脂肪氧化的转变以及40千米周期后糖原储存耗尽所致。与控制运行相比,在循环运行过渡期间运行的能量成本 (CR) 也增加了。CR的增加因1.6% 而异,11.6% 是铁人三项能力水平的反映。这种增加可能部分与运动学改变有关,但研究表明,大多数生物力学参数不变。报告的最重要的观察结果是躯干更前倾的倾斜度。跑步方式以及跑步经济性也可能受到与姿势变化相关的感觉运动扰动的影响。过渡区的技术技能显然非常重要。执行先前循环部分的条件 (即稳态或随机功率输出,牵伸或非牵伸) 可能会影响调整过渡的速度。必须进一步研究在竞争期间平均10千米运行速度下降的程度。显然,运动员在自行车部分末端的场地中放置的位置越高,其快速过渡区域时间和对循环的生理需求的最佳调整对完成位置的重要性就越大。根据顺序循环运动的影响,对培训的必要性和当前方法进行了严格审查,以使初级和精英铁人三项运动员为更好的过渡做好准备。

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