缺血预处理可提高上半身耐力表现,而不改变 VO₂动力学。
Ischaemic preconditioning improves upper-body endurance performance without altering V̇O kinetics.
机构信息
School of Sport, Exercise, and Health Sciences, Loughborough University, Loughborough, UK.
The Peter Harrison Centre for Disability Sport, Loughborough University, Loughborough, UK.
出版信息
Eur J Sport Sci. 2023 Aug;23(8):1538-1546. doi: 10.1080/17461391.2022.2103741. Epub 2022 Aug 5.
PURPOSE
Whilst pre-exercise ischaemic preconditioning (IPC) can improve lower-body exercise performance, its impact on upper-limb performance has received little attention. This study examines the influence of IPC on upper-body exercise performance and oxygen uptake (V̇O) kinetics.
METHODS
Eleven recreationally-active males (24 ± 2 years) completed an arm-crank graded exercise test to exhaustion to determine the power outputs at the ventilatory thresholds (VT1 and VT2) and V̇O (40.0 ± 7.4 ml·kg·min). Four main trials were conducted, two following IPC (4 × 5-min, 220 mmHg contralateral upper-limb occlusion), the other two following SHAM (4 × 5-min, 20 mmHg). The first two trials consisted of a 15-minute constant work rate and the last two time-to-exhaustion (TTE) arm-crank tests at the power equivalents of 95% VT1 (LOW) and VT2 (HIGH), respectively. Pulmonary V̇O kinetics, heart rate, blood-lactate concentration, and rating of perceived exertion were recorded throughout exercise.
RESULTS
TTE during HIGH was longer following IPC than SHAM (459 ± 115 vs 395 ± 102 s, = .004). Mean response time and change in V̇O between 2-min and end exercise (ΔV̇O) were not different between IPC and SHAM for arm-cranking at both LOW (80.3 ± 19.0 vs 90.3 ± 23.5 s [= .06], 457 ± 184 vs 443 ± 245 ml [= .83]) and HIGH (96.6 ± 31.2 vs 92.1 ± 24.4 s [= .65], 617 ± 321 vs 649 ± 230 ml [= .74]). Heart rate, blood-lactate concentration, and rating of perceived exertion did not differ between conditions (all ≥ .05).
CONCLUSION
TTE was longer following IPC during upper-body exercise despite unchanged V̇O kinetics.Whilst pre-exercise ischaemic preconditioning can improve lower-body exercise performance and alter V̇O kinetics, its impact on upper-limb performance has received little attention.An acute bout of ischaemic preconditioning prior to arm-crank ergometry exercise significantly improved time to exhaustion compared to a sham control condition.V̇O kinetics in response to ischaemic preconditioning remained unchanged, suggesting alternative mechanisms may explain performance improvements.
目的
尽管预运动缺血预处理(IPC)可以提高下肢运动表现,但它对上肢表现的影响却很少受到关注。本研究旨在探讨 IPC 对上肢运动表现和摄氧量(V̇O)动力学的影响。
方法
11 名有运动习惯的男性(24±2 岁)完成了上肢功率计递增运动试验至力竭,以确定通气阈值(VT1 和 VT2)和 V̇O(40.0±7.4 ml·kg·min)下的功率输出。共进行了四项主要试验,其中两项在 IPC(4×5 分钟,对侧上肢 220mmHg 阻断)后进行,另外两项在 SHAM(4×5 分钟,20mmHg)后进行。前两个试验持续 15 分钟,恒定的工作率,后两个试验分别在功率相当于 95%VT1(LOW)和 VT2(HIGH)的时间耗尽(TTE)上肢功率计试验。在整个运动过程中记录了肺 V̇O 动力学、心率、血乳酸浓度和感知用力程度。
结果
与 SHAM 相比,IPC 后 HIGH 时的 TTE 更长(459±115 比 395±102 s,=0.004)。在 LOW(80.3±19.0 比 90.3±23.5 s [=0.06],457±184 比 443±245 ml [=0.83])和 HIGH(96.6±31.2 比 92.1±24.4 s [=0.65],617±321 比 649±230 ml [=0.74])时,IPC 和 SHAM 时的手臂旋转的平均反应时间和 V̇O 之间的变化(ΔV̇O)没有差异。心率、血乳酸浓度和感知用力程度在两种情况下均无差异(均≥0.05)。
结论
尽管 V̇O 动力学没有变化,但在进行上肢运动时,IPC 后 TTE 更长。虽然预运动缺血预处理可以提高下肢运动表现并改变 V̇O 动力学,但它对上肢表现的影响却很少受到关注。与 sham 对照相比,手臂旋转运动前进行急性缺血预处理可显著提高运动至力竭的时间。对缺血预处理的 V̇O 动力学反应保持不变,这表明可能存在其他机制来解释运动表现的改善。
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