业余铁人三项运动员的最大摄氧量、肌肉氧化能力和通气阈值：八个月的训练跟踪

IF 1.3 Q3 SPORT SCIENCES

Open Access Journal of Sports Medicine Pub Date : 2024-03-15 DOI:10.2147/oajsm.s453875

Mateus Guilherme Calixto Assis, José Geraldo Gomes Barbosa Junior, Aldo Seffrin, Vinícius Ribeiro dos Anjos Souza, Lavínia Vivan, Mila Alves Matos Rodrigues, Claudio André Barbosa de Lira, Rodrigo Luiz Vancini, Beat Knechtle, Katja Weiss, Marilia Santos Andrade

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The present study aims to evaluate absolute, total body mass, and lower limb LM-adjusted ⩒O2max, ventilatory thresholds (VT), respiratory compensation points (RCP), and body composition during two training periods separated by 8 months. Patients and Methods: Thirteen competitive amateur triathletes [seven men (40.7± 13.7 years old, 76.3± 8.3kg, and 173.9± 4.8cm) and six women (43.5± 6.9 years old, 55.0± 2.7kg, 164.9± 5.2cm)] were evaluated for body composition with dual-energy X-ray absorptiometry and ⩒O2max, VT, RPC, and maximal aerobic speed (MAS) with a cardiorespiratory maximal treadmill test. Results: The absolute ⩒O2max (p = 0.003, d = 1.05), body mass–adjusted ⩒O2max (p < 0.001, d = 1.2859), and MAS (p = 0.047, d = 0.6139) values differed significantly across evaluation periods. Lower limb LM–adjusted ⩒O2max (p = 0.083, d = − 0.0418), %⩒O2max at VT (p = 0.541, d = − 0.1746), speed at VT (p = 0.337, d = − 0.2774), % ⩒O2max at RCP (p = 0.776, d = 0.0806), and speed at RCP (p = 0.436, d = 0.2234) showed no difference. Conclusion: The sensitivities of ⩒O2max adjusted for body mass and ⩒O2max adjusted for LM to detect changes in physical training state differ. Furthermore, decreases in physical fitness level, as evaluated by ⩒O2max values, are not accompanied by changes in VT. 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引用次数: 0

摘要

目的：耐力运动成绩受多个因素影响，包括最大摄氧量（⩒O2max）、耐力项目中可维持的⩒O2max 百分比、跑步经济性和身体成分。传统上，⩒O2max 可以用绝对值测量，根据体重进行调整，反映运动员的中心能力（最大心输出量），或根据瘦体重（LM）进行调整，反映运动员的外周能力（肌肉氧化能力）。本研究的目的是评估运动员在相隔 8 个月的两个训练期间的绝对值、全身质量和下肢 LM 调整后的⩒O2max、通气阈值（VT）、呼吸补偿点（RCP）和身体成分：对 13 名业余铁人三项竞技运动员[7 名男性（40.7± 13.7 岁，76.3± 8.3 千克，173.9± 4.8 厘米）和 6 名女性（43.5± 6.9 岁，55.0± 2.7 千克，164.9± 5.2cm）]进行了双能 X 射线吸收测定法的身体成分评估，以及心肺功能最大跑步机测试的⩒O2max、VT、RPC 和最大有氧速度（MAS）：不同评估期的⩒O2max 绝对值（p = 0.003，d = 1.05）、体重调整后的⩒O2max（p < 0.001，d = 1.2859）和 MAS（p = 0.047，d = 0.6139）值差异显著。下肢 LM 调整后的⩒O2max（p = 0.083，d = - 0.0418）、VT 时的⩒O2max%（p = 0.541，d = - 0.1746）、VT 时的速度（p = 0.337，d = - 0.2774）、RCP 时的⩒O2max%（p = 0.776，d = 0.0806）和 RCP 时的速度（p = 0.436，d = 0.2234）没有差异：结论：根据体重调整后的⩒O2max 和根据 LM 调整后的⩒O2max 对体能训练状态变化的检测灵敏度不同。此外，以⩒O2max 值评估的体能水平下降并不伴随着 VT 的变化。

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Maximal Oxygen Uptake, Muscular Oxidative Capacity, and Ventilatory Threshold in Amateur Triathletes: Eight-Month Training Follow-Up

Purpose: Endurance sports performance is influenced by several factors, including maximal oxygen uptake (⩒O₂max), the percentage of ⩒O₂max that can be sustained in endurance events, running economy, and body composition. Traditionally, ⩒O₂max can be measured as an absolute value, adjusted for body mass, reflecting the athlete’s central capacity (maximal cardiac output), or adjusted for lean mass (LM), reflecting the athlete’s peripheral capacity (muscular oxidative capacity). The present study aims to evaluate absolute, total body mass, and lower limb LM-adjusted ⩒O₂max, ventilatory thresholds (VT), respiratory compensation points (RCP), and body composition during two training periods separated by 8 months.
Patients and Methods: Thirteen competitive amateur triathletes [seven men (40.7± 13.7 years old, 76.3± 8.3kg, and 173.9± 4.8cm) and six women (43.5± 6.9 years old, 55.0± 2.7kg, 164.9± 5.2cm)] were evaluated for body composition with dual-energy X-ray absorptiometry and ⩒O₂max, VT, RPC, and maximal aerobic speed (MAS) with a cardiorespiratory maximal treadmill test.
Results: The absolute ⩒O₂max (p = 0.003, d = 1.05), body mass–adjusted ⩒O₂max (p < 0.001, d = 1.2859), and MAS (p = 0.047, d = 0.6139) values differed significantly across evaluation periods. Lower limb LM–adjusted ⩒O₂max (p = 0.083, d = − 0.0418), %⩒O₂max at VT (p = 0.541, d = − 0.1746), speed at VT (p = 0.337, d = − 0.2774), % ⩒O₂max at RCP (p = 0.776, d = 0.0806), and speed at RCP (p = 0.436, d = 0.2234) showed no difference.
Conclusion: The sensitivities of ⩒O₂max adjusted for body mass and ⩒O₂max adjusted for LM to detect changes in physical training state differ. Furthermore, decreases in physical fitness level, as evaluated by ⩒O₂max values, are not accompanied by changes in VT.

Keywords: amateur triathletes, skeletal muscle oxidative capacity, triathlon, performance

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来源期刊

Open Access Journal of Sports Medicine SPORT SCIENCES-

CiteScore

4.80

自引率

0.00%

发文量

审稿时长

16 weeks