Experimental Physiology (Nov 2023)

Critical power is a key threshold determining the magnitude of post‐exercise hypotension in non‐hypertensive young males

  • Tze‐Huan Lei,
  • I‐Lin Wang,
  • Yi‐Ming Chen,
  • Xin‐Hao Liu,
  • Naoto Fujii,
  • Shunsaku Koga,
  • Blake Perry,
  • Toby Mundel,
  • Faming Wang,
  • Yinhang Cao,
  • Kohei Dobashi,
  • Narihiko Kondo,
  • Hao‐Yu Li,
  • Richie P. Goulding

DOI
https://doi.org/10.1113/EP091429
Journal volume & issue
Vol. 108, no. 11
pp. 1409 – 1421

Abstract

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Abstract The effect of different exercise intensities on the magnitude of post‐exercise hypotension has not been rigorously clarified with respect to the metabolic thresholds that partition discrete exercise intensity domains (i.e., critical power and the gas exchange threshold (GET)). We hypothesized that the magnitude of post‐exercise hypotension would be greater following isocaloric exercise performed above versus below critical power. Twelve non‐hypertensive men completed a ramp incremental exercise test to determine maximal oxygen uptake and the GET, followed by five exhaustive constant load trials to determine critical power and W′ (work available above critical power). Subsequently, criterion trials were performed at four discrete intensities matched for total work performed (i.e., isocaloric) to determine the impact of exercise intensity on post‐exercise hypotension: 10% above critical power (10% > CP), 10% below critical power (10% GET) and 10% below GET (10% CP: −12.7 ± 8.3 vs. 10% CP: −9.6 ± 9.8 vs. 10% CP: −23.8 ± 7.0 vs. 10% CP compared to all other trials (all P 0.05). Critical power represents a threshold above which the magnitude of post‐exercise hypotension is greatly augmented.

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