即使与间歇性常压低氧训练相结合，补充膳食硝酸盐对模拟海拔高度下的耐力表现也没有帮助。

Dietary Nitrate Supplementation Is Not Helpful for Endurance Performance at Simulated Altitude Even When Combined With Intermittent Normobaric Hypoxic Training.

作者信息

Sousa Ana, Viana João L, Milheiro Jaime, Reis Vítor M, Millet Grégoire P

机构信息

Research Center in Sports Sciences, Health Sciences and Human Development (CIDESD), University of Trás-Os-Montes and Alto Douro, Vila Real, Portugal.

Research Center in Sports Sciences, Health Sciences and Human Development (CIDESD), Instituto Universitário da Maia (ISMAI), Maia, Portugal.

出版信息

Front Physiol. 2022 Mar 14;13:839996. doi: 10.3389/fphys.2022.839996. eCollection 2022.

DOI:10.3389/fphys.2022.839996

PMID:35360239

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8964050/

Abstract

INTRODUCTION

Training intensity and nutrition may influence adaptations to training performed in hypoxia and consequently performance outcomes at altitude. This study investigates if performance at simulated altitude is improved to a larger extent when high-intensity interval training is performed in normobaric hypoxia and if this is potentiated when combined with chronic dietary nitrate (NO ) supplementation.

METHODS

Thirty endurance-trained male participants were allocated to one of three groups: hypoxia (13% FO) + NO ; hypoxia + placebo; and normoxia (20.9% FO) + placebo. All performed 12 cycling sessions (eight sessions of 26 × 1 min at severe intensity with 1 min recovery and four sessions of 46*10 s all-out with 20 s recovery) during a 4-week period (three sessions/week) with supplementation administered 3-2.5 h before each session. An incremental exhaustion test, a severe intensity exercise bout to exhaustion ( ) and a 3 min all-out test (3AOT) in hypoxia (FO = 13%) with pulmonary oxygen uptake ( O), O kinetics, and changes in local O saturation (SmO) measured were completed by each participant before and after training.

RESULTS

In all tests, performance improved to the same extent in hypoxia and normoxia, except for SmO after ( = 0.04, = 0.82) and 3AOT ( = 0.03, = 1.43) which were lower in the two hypoxic groups compared with the normoxic one. Dietary NO supplementation did not bring any additional benefits.

CONCLUSION

Performance at simulated altitude was not improved to a larger extent when high-intensity interval training was undertaken in normobaric hypoxic conditions, when compared with normoxic training. Additionally, dietary NO supplementation was ineffective in further enhancing endurance performance at simulated altitude.

摘要

引言

训练强度和营养状况可能会影响对在低氧环境下进行的训练的适应性，进而影响在高原地区的运动表现。本研究旨在调查在常压低氧环境下进行高强度间歇训练时，模拟高原环境下的运动表现是否会有更大程度的提高，以及与长期补充膳食硝酸盐（NO）相结合时是否会增强这种效果。

方法

30名耐力训练的男性参与者被分配到三个组中的一组：低氧（13%氧气）+NO；低氧+安慰剂；常氧（20.9%氧气）+安慰剂。在为期4周的时间内（每周三次训练），所有参与者都进行了12次自行车训练（八次2×6×1分钟的高强度训练，每次训练后休息1分钟，四次4×6×10秒的全力冲刺训练，每次训练后休息20秒），每次训练前3 - 2.5小时进行补充剂给药。每位参与者在训练前后都完成了递增力竭试验、一次高强度运动至力竭的训练（）以及在低氧（氧气含量 = 13%）环境下进行的3分钟全力测试（3AOT），并测量了肺摄氧量（VO₂）、VO₂动力学以及局部氧饱和度（SmO₂）的变化。

结果

在所有测试中，除了在（P = 0.04，效应量 = 0.82）和3AOT（P = 0.03，效应量 = 1.43）后低氧组的SmO₂低于常氧组外，低氧和常氧环境下的运动表现提高程度相同。补充膳食NO没有带来任何额外的益处。

结论

与常氧训练相比，在常压低氧条件下进行高强度间歇训练时，模拟高原环境下的运动表现并没有得到更大程度的提高。此外，补充膳食NO在进一步提高模拟高原环境下的耐力表现方面无效。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a628/8964050/a14317ff1b84/fphys-13-839996-g001.jpg

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即使与间歇性常压低氧训练相结合，补充膳食硝酸盐对模拟海拔高度下的耐力表现也没有帮助。

Dietary Nitrate Supplementation Is Not Helpful for Endurance Performance at Simulated Altitude Even When Combined With Intermittent Normobaric Hypoxic Training.

作者信息

机构信息

出版信息

INTRODUCTION

METHODS

RESULTS

CONCLUSION

引言

方法

结果

结论

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