Hypoxia impairs neuromuscular function more than heat after incremental test to exhaustion

 

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Heat stress and hypoxia impair athletic performance through inflammation, muscle injury, and neuromuscular dysfunction. This study examined these effects in 15 endurance athletes (13 males and 2 females, VO2max=59.5±3.9ml/min/kg) performing incremental load tests to exhaustion under normal (CON), hypoxic (HYP), and high-temperature and humidity (HOT) conditions. Pre- and post-exercise assessments, included blood biomarkers, performance and surface electromyography (sEMG) during the counter-movement jump (CMJ) and isometric mid-thigh pull (IMTP), were conducted under normal conditions. Compared to CON, time to exhaustion was significantly reduced in HYP and HOT (P<0.05). CMJ performance declined under CON and HYP (P<0.05). Force at 200 ms and 250 ms decreased under both CON and HYP during IMTP (P<0.05). The root mean square (RMS) and the median power frequency (MPF) were decreased under HYP during CMJ and IMTP (P<0.05). In contrast, no significant differences in sEMG and kinetic markers were observed in the HOT (P>0.05). No significant changes in CK and LDH levels were observed (P>0.05). Post-exercise, TNF-α was lower in HYP (P<0.05), while IL-6 increased in HOT (P<0.05). Hypoxia impairs neuromuscular function and suppresses inflammation, whereas heat stress induces inflammation without neuromuscular deficits.

Publication History

Received: 14 November 2024

Accepted after revision: 01 July 2025

Accepted Manuscript online:
01 July 2025

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