O'Toole M L, Douglas P S
University of Tennessee-Campbell Clinic, Department of Orthopaedic Surgery, Memphis, USA.
Sports Med. 1995 Apr;19(4):251-67. doi: 10.2165/00007256-199519040-00003.
The triathlon is a 3-event endurance sport in which athletes compete sequentially in swimming, cycling and running. The primary determinant of success is the ability to sustain a high rate of energy expenditure for prolonged periods of time. Exercise training-induced physiological adaptations in virtually all systems of the body allow the athlete to accomplish this. Aerobic capacity (measured as maximal oxygen uptake, VO2max), economy of motion (submaximal VO2) and fractional utilisation of maximal capacity (%VO2max) reflect the integrated responses of these physiological adaptations. Numerous studies have reported relatively high mean VO2max values for various groups of triathletes that are comparable to those reported for athletes in single-event endurance sports and clearly above those reported for untrained individuals. In shorter distance triathlons and in studies using recreational (rather than elite) triathletes, VO2max is related to performance in the corresponding event of the triathlon (e.g. tethered swimming VO2max with swim time). In longer events and with more elite triathletes, VO2max correlates less well with performance. The physiological adaptations that correspond to and facilitate improved VO2max occur centrally in the cardiovascular system, centred on increased maximal cardiac output, and peripherally in the metabolic systems, centred around increased arterio-venous O2 (a-v O2) difference. While a high VO2max in individuals is clearly of importance to triathlon performance, energy output must be sustained for long periods of time, making economy of motion also very important. Studies suggests that competitive swimmers have better swimming economy than triathletes. However, since many triathletes have previously been competitive swimmers this finding is questionable. The finding suggests that triathletes from nonswimming backgrounds would benefit from improving swimming technique rather than concentrating training workouts solely on distance. In cycling and running, comparison studies have not been done. Economy of motion in swimming, cycling and running have all been found to be correlated with comparable event performance. Training to improve swimming economy can be done without prior exercise, but training to improve swimming economy can be done without prior exercise, but training to improve cycling and running economy should take the multimode nature of a triathlon into consideration. That is, swimming should precede cycling economy training, and cycling should precede running economy training. Cardiovascular, metabolic and neuromuscular adaptations are the main physiological correlates of improved movement economy. Since exercise-induced stress on most physiological systems is based on relative, rather than absolute, exercise intensity, training and racing intensities are frequently quantified as a percentage of maximal capacity of %VO2max.(ABSTRACT TRUNCATED AT 400 WORDS)
铁人三项是一项包含三个项目的耐力运动,运动员要依次完成游泳、骑自行车和跑步。成功的主要决定因素是长时间维持高能量消耗率的能力。运动训练会引起身体几乎所有系统的生理适应性变化,使运动员能够做到这一点。有氧能力(以最大摄氧量,即VO₂max衡量)、运动经济性(次最大摄氧量)和最大能力的分数利用率(%VO₂max)反映了这些生理适应性变化的综合反应。许多研究报告了各类铁人三项运动员相对较高的平均VO₂max值,这些值与单项耐力运动运动员的报告值相当,且明显高于未受过训练者的报告值。在较短距离的铁人三项赛以及使用业余(而非精英)铁人三项运动员的研究中,VO₂max与铁人三项相应项目的成绩相关(例如,游泳时的VO₂max与游泳时间相关)。在较长距离的赛事以及更多精英铁人三项运动员中,VO₂max与成绩的相关性较差。与VO₂max提高相对应并促进其提高的生理适应性变化发生在心血管系统的中枢部位,以最大心输出量增加为中心,以及代谢系统的外周部位,以动静脉氧分差(a-v O₂)增加为中心。虽然个体的高VO₂max对铁人三项成绩显然很重要,但能量输出必须长时间维持,因此运动经济性也非常重要。研究表明,竞技游泳运动员的游泳经济性比铁人三项运动员更好。然而,由于许多铁人三项运动员以前是竞技游泳运动员,这一发现值得怀疑。这一发现表明,非游泳背景的铁人三项运动员将从改进游泳技术中受益,而不是仅仅将训练集中在距离上。在自行车和跑步方面,尚未进行比较研究。已发现游泳、自行车和跑步的运动经济性都与相应项目的成绩相关。提高游泳经济性的训练可以在没有先前运动的情况下进行,但提高自行车和跑步经济性的训练应考虑到铁人三项的多模式性质。也就是说,游泳经济性训练应先于自行车经济性训练,而自行车经济性训练应先于跑步经济性训练。心血管、代谢和神经肌肉适应性变化是运动经济性提高的主要生理相关因素。由于运动对大多数生理系统造成的压力基于相对运动强度而非绝对运动强度,训练和比赛强度通常以%VO₂max的最大能力百分比来量化。(摘要截选至400字)
