血氧饱和度对血红蛋白质量与vo2max关系的影响。

Sports medicine international open Pub Date : 2018-09-06 eCollection Date: 2018-07-01 DOI:10.1055/a-0655-7207
Jesse A Goodrich, Benjamin J Ryan, William C Byrnes
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引用次数: 18

摘要

血红蛋白质量(tHb)是最大摄氧量(vo2max)的关键决定因素。我们研究了在中度海拔(1625 m)下,VO 2 max处的血红蛋白氧饱和度(ΔS a o2)是否会改变tHb和VO 2 max之间的关系。17名女性和16名男性接受了耐力训练的中等海拔地区居民进行了两次tHb评估和两次分级运动测试,以确定vo2max和ΔS a O 2。雄性和雌性的VO 2 max (ml·kg -1·min -1)分别为62.5 ~ 83.0和44.5 ~ 67.3;tHb (g·kg -1)为12.1 ~ 17.5和9.1 ~ 13.0;vo2 max(%)为81.7 ~ 94.0和85.7 ~ 95.0。tHb在绝对值和校正体重后与vo2max相关(r分别=0.94和0.86);通过ΔS a o2校正并没有改善这些关系(r=0.93和0.83)。此外,tHb与so2 max呈负相关(r=-0.57)。总之,在中等海拔的耐力运动员中,tHb和vo2max之间的关系与在海平面上观察到的相似。然而,通过ΔS a o2校正tHb并不能解释VO 2 max的额外变异,尽管ΔS a o2具有显著的变异;这提出了tHb和运动诱导的ΔS a O 2在耐力运动员中不是独立的可能性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

The Influence of Oxygen Saturation on the Relationship Between Hemoglobin Mass and VO <sub>2</sub> max.

The Influence of Oxygen Saturation on the Relationship Between Hemoglobin Mass and VO <sub>2</sub> max.

The Influence of Oxygen Saturation on the Relationship Between Hemoglobin Mass and VO <sub>2</sub> max.

The Influence of Oxygen Saturation on the Relationship Between Hemoglobin Mass and VO 2 max.

Hemoglobin mass (tHb) is a key determinant of maximal oxygen uptake (VO 2 max). We examined whether oxyhemoglobin desaturation (ΔS a O 2 ) at VO 2 max modifies the relationship between tHb and VO 2 max at moderate altitude (1,625 m). Seventeen female and 16 male competitive, endurance-trained moderate-altitude residents performed two tHb assessments and two graded exercise tests on a cycle ergometer to determine VO 2 max and ΔS a O 2 . In males and females respectively, VO 2 max (ml·kg -1 ·min -1 ) ranged from 62.5-83.0 and 44.5-67.3; tHb (g·kg -1 ) ranged from 12.1-17.5 and 9.1-13.0; and S a O 2 at VO 2 max (%) ranged from 81.7-94.0 and 85.7-95.0. tHb was related to VO 2 max when expressed in absolute terms and after correcting for body mass (r=0.94 and 0.86, respectively); correcting by ΔS a O 2 did not improve these relationships (r=0.93 and 0.83). Additionally, there was a negative relationship between tHb and S a O 2 at VO 2 max (r=-0.57). In conclusion, across a range of endurance athletes at moderate altitude, the relationship between tHb and VO 2 max was found to be similar to that observed at sea level. However, correcting tHb by ΔS a O 2 did not explain additional variability in VO 2 max despite significant variability in ΔS a O 2 ; this raises the possibility that tHb and exercise-induced ΔS a O 2 are not independent in endurance athletes.

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