Mechanical Asymmetries during Treadmill Running: Effects of Running Velocity and Hypoxic Exposure

Tee, Chris Chow Li; Chong, Mee Chee; Sundar, Viswanath; Chok, Chuen Leang; Yeo, Wee Kian; Girard, Olivier

doi:10.3390/sym15071303

Symmetry

2023

DOI: 10.3390/sym15071303

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Mechanical Asymmetries during Treadmill Running: Effects of Running Velocity and Hypoxic Exposure

Chris Chow Li Tee

Mee Chee Chong

Viswanath Sundar

et al.

Abstract: Studies evaluating mechanical asymmetry across a range of running velocities during treadmill runs have yielded inconsistent findings, while the impact of additional hypoxic exposure has never been investigated. The aim of this study was to characterize the effects of manipulating running velocity and hypoxic exposure on gait asymmetry during treadmill running. Eleven trained individuals performed seven runs at different velocities (8, 10, 12, 14, 16, 18, and 20 km·h−1) in a randomized order, each lasting 45 s… Show more

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2024

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Influence of Running Velocity and Hypoxic Exposure on Vastus Lateralis Muscle Oxygenation

Yeap,

Loh,

Chong

et al. 2024

International Journal of Sports Physiology and Performance

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Purpose: We investigated the effects of manipulating running velocity and hypoxic exposure on vastus lateralis muscle oxygenation levels during treadmill running. Methods: Eleven trained male distance runners performed 7 randomized runs at different velocities (8, 10, 12, 14, 16, 18, and 20 km·h−1), each lasting 45 seconds on an instrumented treadmill in normoxia (fraction of inspired oxygen [FiO2] = 20.9%), moderate hypoxia (FiO2 = 16.1%), high hypoxia (FiO2 = 14.1%), and severe hypoxia (FiO2 = 13.0%). Continuous assessment of Tissue Saturation Index (TSI) in the vastus lateralis muscle was conducted using near-infrared spectroscopy. Subsequently, changes in TSI (ΔTSI) data over the final 20 seconds of each run were compared between velocities and conditions. Results: There was a significant velocity × condition interaction for ΔTSI% (P < .001, ), with a smaller ΔTSI% decline in normoxia compared with high hypoxia and severe hypoxia at 8 km·h−1 (g = 1.30 and 1.91, respectively), 10 km·h−1 (g = 0.75 and 1.43, respectively), and 12 km·h−1 (g = 1.47 and 1.95, respectively) (pooled values for all conditions: P < .037). The ΔTSI% decline increased with each subsequent velocity increment from 8 km·h−1 (−9.2% [3.7%]) to 20 km·h−1 (−22.5% [4.1%]) irrespective of hypoxia severity (pooled values for all conditions: P < .048). Conclusions: Running at slower velocities in conjunction with high and severe hypoxia reduces vastus lateralis muscle oxygenation levels. Muscle ΔTSI% proves to be a sensitive indicator, underscoring the potential use of near-infrared spectroscopy as a reference index of internal load during treadmill runs.

show abstract

Influence of Running Velocity and Hypoxic Exposure on Vastus Lateralis Muscle Oxygenation

Yeap,

Loh,

Chong

et al. 2024

International Journal of Sports Physiology and Performance

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show abstract

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Mechanical Asymmetries during Treadmill Running: Effects of Running Velocity and Hypoxic Exposure

Cited by 1 publication

References 35 publications

Influence of Running Velocity and Hypoxic Exposure on Vastus Lateralis Muscle Oxygenation

Influence of Running Velocity and Hypoxic Exposure on Vastus Lateralis Muscle Oxygenation

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