JOURNAL ARTICLE
Acute normobaric hypoxia causes a rightward shift in the torque-frequency relationship but has no effect on postactivation potentiation.
Published In: Journal of Applied Physiology, 2024, v. 137, n. 5. P. 1389 1 of 3
Database: SPORTDiscus with Full Text 2 of 3
Authored By: Bruce, Christina D.; Debenham, Mathew I. B.; Dalton, Brian H.; McNeil, Chris J. 3 of 3
Abstract
Low fractions of inspired oxygen ( F I O 2 ; i.e., hypoxia) affect aspects of skeletal muscle contractility in humans, but it remains unclear if postactivation potentiation (PAP) and the torque-frequency (T-F) relationship are altered. We investigated the effects of 2 (H2) and 4 (H4) h of normobaric hypoxia ( F I O 2 = 0.11 ± 0.47) on the magnitude of PAP of the knee extensors and the T-F relationship of the dorsiflexors in 13 and 12 healthy participants, respectively. To assess PAP, a resting twitch was evoked via femoral nerve stimulation before and 2–300 s after a 10-s maximal voluntary contraction (MVC). A T-F relationship was obtained by stimulating the common fibular nerve with a single pulse and 1-s trains between 5 and 100 Hz. During hypoxia, peripheral oxygen saturation decreased by ∼18% from 98.0 ± 0.8% at baseline (P < 0.001). MVC force and voluntary activation (VA) of the knee extensors were lower than baseline throughout hypoxia (e.g., ∼8% and ∼5%, respectively, at H2; P ≤ 0.027); however, the magnitude of PAP was not altered by hypoxia (P ≥ 0.711). Surprisingly, PAP did increase with time across the control day (P ≤ 0.012). MVC torque and VA of the dorsiflexors were unaffected by hypoxia (P ≥ 0.127), but the estimated frequency required to evoke 50% of 100 Hz torque increased by ∼1.2 Hz at H2 (P ≤ 0.021). These results imply that 2 h of normobaric hypoxia were sufficient to 1) impair neural drive to the knee extensors but not the mechanism(s) responsible for PAP and 2) lead to a rightward shift of the T-F relationship for the dorsiflexors. NEW & NOTEWORTHY: Postactivation potentiation of the knee extensors was unaffected by 4 h of normobaric hypoxia exposure but may be confounded by hypoxia-related impairments to the conditioning contraction. In the dorsiflexors, contractile rates increased in hypoxia, which led to a rightward shift of the torque-frequency relationship, such that a higher frequency was required to obtain 50% of maximal torque. These results expand our understanding of the acute effects of hypoxia on skeletal muscle function. ABSTRACT FROM AUTHOR
Additional Information
- Source:Journal of Applied Physiology. 2024/11, Vol. 137, Issue 5, p1389
- Document Type:Article
- Subject Area:Health and Medicine
- Publication Date:2024
- ISSN:87507587
- DOI:10.1152/japplphysiol.00378.2024
- Accession Number:181208430
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