Int J Sports Physiol Perform. 2018 Jul 1;13(6):729-734. doi: 10.1123/ijspp.2016-0716. Epub 2018 Jul 10.
Ramp tests are continuously increasing exercise tests used for the determination of maximal oxygen uptake ( V ˙ O 2 max ), which is identifiable by a plateau in oxygen uptake despite increasing mechanical power output (LOAD). On wind-braked rowing ergometers (RowErg), it is hardly feasible to ensure a continuous increase in LOAD until test termination, as neither resistance nor stroke frequency is externally adjustable but depends on the rower. To enable ramp tests on RowErg, the authors produced visual stroke-by-stroke feedback showing target and actual LOAD to the rower. The software supports automatic test termination (TERM) if LOAD ceases to increase. The authors aimed to evaluate linearity of the LOAD increment and calculate the difference between TERM and test duration at subjective exhaustion.
Twenty-eight highly trained male rowers performed a ramp test until subjective exhaustion on RowErg, targeting an increment of 35 W·min. LOAD was measured as work per time via external force and position sensors and visualized on a computer screen. TERM was deactivated, but all data were logged. Test duration at subjective exhaustion was subsequently compared with virtual test duration at TERM calculated from the log files.
Regression between time and LOAD was y = 167 + 34.6 W (r = .99). Individual correlations ranged from .97 to 1.0. TERM caused 12- to 35-s-shorter test durations than subjective exhaustion in 4 rowers, leading to an underestimation in V ˙ O 2 max not higher than 1.2% or 3.7%.
This setup allows one to perform ramp tests on RowErg with continuously increasing LOAD until TERM. In particular cases V ˙ O 2 max might be slightly underestimated at TERM.
递增负荷测试是一种持续增加运动强度的测试方法,用于测定最大摄氧量(V˙O2 max),其特征是在氧气摄取量不断增加的情况下,机械功率输出(LOAD)达到平台期。在制动式划船测功仪(RowErg)上,由于阻力和划频都无法外部调节,而是取决于运动员,因此几乎不可能在测试结束前确保LOAD 持续增加。为了在 RowErg 上进行递增负荷测试,作者生成了可视化的逐桨反馈,向运动员显示目标和实际的 LOAD。该软件支持在 LOAD 停止增加时自动终止测试(TERM)。作者旨在评估 LOAD 增量的线性度,并计算主观疲劳时 TERM 与测试持续时间之间的差异。
28 名高水平男性划船运动员在 RowErg 上进行递增负荷测试,直至主观疲劳,目标是增加 35 W·min。通过外部力和位置传感器测量 LOAD,并在计算机屏幕上可视化。TERM 被禁用,但所有数据都被记录下来。随后将主观疲劳时的测试持续时间与从日志文件中计算得出的虚拟 TERM 时的测试持续时间进行比较。
时间和 LOAD 之间的回归方程为 y=167+34.6 W(r=.99)。个体相关性范围为.97 至 1.0。在 4 名运动员中,TERM 导致测试持续时间比主观疲劳时缩短了 12-35 秒,导致 V˙O2 max 的低估不超过 1.2%或 3.7%。
该设置允许在 RowErg 上进行连续增加 LOAD 的递增负荷测试,直至 TERM。在某些情况下,TERM 时的 V˙O2 max 可能会被略微低估。
