在逐口气模式下使用 COSMED AquaTrainer 和 K5 可穿戴代谢系统游泳:准确性、精密度和可重复性。
Swimming With the COSMED AquaTrainer and K5 Wearable Metabolic System in Breath-by-Breath Mode: Accuracy, Precision, and Repeatability.
机构信息
Faculty of Sport (FADEUP), Center of Research, Education, Innovation and Intervention in Sport (CIFI2D), University of Porto, Porto,Portugal.
Porto Biomechanics Laboratory (LABIOMEP-UP), University of Porto, Porto,Portugal.
出版信息
Int J Sports Physiol Perform. 2023 Jun 23;18(10):1152-1160. doi: 10.1123/ijspp.2022-0386. Print 2023 Oct 1.
PURPOSE
To compare ventilatory and cardiorespiratory responses between the COSMED AquaTrainer coupled with the K4b2 and K5 wearable metabolic systems in breath-by-breath mode over a wide range of swimming speeds.
METHODS
Seventeen well-trained master swimmers performed 2 front-crawl 7 × 200-m incremental intermittent protocols (increments of 0.05 m·s-1 and 30-s rest intervals, with a visual pacer) with AquaTrainer coupled with either K4b2 or K5.
RESULTS
Post hoc tests showed that swimming speed was similar (mean diff.: -0.01 to 0.01 m·s-1; P = .73-.97), repeatable (intraclass correlation coefficient: .88-.99; P < .001), highly accurate, and precise (agreement; bias: -0.01 to 0.01 m·s-1; limits: -0.1 to 0.1 m·s-1) between all conditions. Ventilatory and cardiorespiratory responses were highly comparable between all conditions, despite a "small" effect size for fraction of expired carbon dioxide at the sixth 200-m step (0.5%; ηp2=.12; P = .04) and carbon dioxide production at the fifth, sixth, and seventh 200-m steps (0.3-0.5 L·min-1; ηp2=.11-.17; P = .01-.05). We also observed high accuracy, which was greater for tidal volume (0.0-0.1 L), minute ventilation (-3.7 to 5.1 L·min-1), respiratory frequency (bias: -2.1 to 1.9 breaths·min-1), and oxygen uptake (0.0-0.2 L·min-1). Bland-Altman plots showed that the distribution inside the limits of agreement and their respective 95% CIs were consistent for all ventilatory and cardiorespiratory data. The repeatability (intraclass correlation coefficient) of tidal volume (.93-.97), minute ventilation (.82-.97), respiratory frequency (.68-.96), fraction of expired carbon dioxide (.85-.95), carbon dioxide production (.77-.95), fraction of expired oxygen (.78-.92), and oxygen uptake (.94-.98) data ranged from moderate to excellent (P < .001-.05).
CONCLUSIONS
Swimming with the AquaTrainer coupled with K5 (breath-by-breath mode) yields accurate, precise, and repeatable ventilatory and cardiorespiratory responses when compared with K4b2 (previous gold standard). Swimming support staff, exercise and health professionals, and researchers can now relate differences between physiological capacities measured with the AquaTrainer while coupled with either of these 2 devices.
目的
比较在宽范围游泳速度下,将 COSMED AquaTrainer 与 K4b2 和 K5 可穿戴代谢系统耦合时,呼吸模式下的通气和心肺呼吸反应。
方法
17 名训练有素的游泳大师进行了 2 次前爬 7×200 米递增间歇协议(增量为 0.05 m·s-1 和 30 秒休息间隔,带有视觉定速器),与 AquaTrainer 耦合,使用 K4b2 或 K5。
结果
事后检验表明,游泳速度相似(平均差异:-0.01 至 0.01 m·s-1;P =.73-.97),可重复(组内相关系数:.88-.99;P <.001),高度准确和精确(一致性;偏差:-0.01 至 0.01 m·s-1;范围:-0.1 至 0.1 m·s-1)在所有条件之间。尽管在第六个 200 米步骤时呼气二氧化碳分数的“小”效应大小(0.5%;ηp2=.12;P =.04)和二氧化碳产生量在第五、第六和第七个 200 米步骤时(0.3-0.5 L·min-1;ηp2=.11-.17;P =.01-.05)存在差异,但通气和心肺呼吸反应仍然高度可比。我们还观察到高准确性,潮气量(0.0-0.1 L)、分钟通气量(-3.7 至 5.1 L·min-1)、呼吸频率(偏差:-2.1 至 1.9 次·min-1)和氧气摄取量(0.0-0.2 L·min-1)的准确性更高。Bland-Altman 图表明,所有通气和心肺呼吸数据的一致性和各自 95%置信区间内的分布一致。潮气量(.93-.97)、分钟通气量(.82-.97)、呼吸频率(.68-.96)、呼气二氧化碳分数(.85-.95)、二氧化碳产生量(.77-.95)、呼气氧气分数(.78-.92)和氧气摄取量(.94-.98)数据的可重复性(组内相关系数)为中等至高(P <.001-.05)。
结论
与 K4b2(以前的黄金标准)相比,当与 K5(呼吸模式)耦合时,使用 AquaTrainer 游泳可获得准确、精确和可重复的通气和心肺呼吸反应。游泳支持人员、运动和健康专业人员以及研究人员现在可以将这两种设备测量的生理能力之间的差异联系起来。
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