Blood-Flow Restriction Is Associated With More Even Pacing During High-Intensity Cycling.

Purpose: This study examined the influence of blood-flow restriction (BFR) on the distribution of pace, physiological demands, and perceptual responses during self-paced cycling. Methods: On separate days, 12 endurance cyclists/triathletes were instructed to produce the greatest average power output during 8-minute self-paced cycling trials with BFR (60% arterial occlusion pressure) or without restriction (CON). Power output and cardiorespiratory variables were measured continuously. Perceived exertion, muscular discomfort, and cuff pain were recorded every 2 minutes. Results: Linear regression analysis of the power output slope was statistically significant (ie, deviated from the intercept) for CON (2.7 [3.2] W·30 s⁻¹; P =.009) but not for BFR (−0.1 [3.1] W·30 s⁻¹; P =.952). Absolute power output was ∼24% (12%) lower at all time points (P <.001) during BFR compared with CON. Oxygen consumption (18% [12%]; P <.001), heart rate (7% [9%]; P <.001), and perceived exertion (8% [21%]; P =.008) were reduced during BFR compared with CON, whereas muscular discomfort (25% [35%]; P =.003) was greater. Cuff pain was rated as "strong" (5.3 [1.8] au; 0–10 scale) for BFR. Conclusion: Trained cyclists adopted a more even distribution of pace when BFR was applied compared with a negative distribution during CON. By presenting a unique combination of physiological and perceptual responses, BFR is a useful tool to understand how the distribution of pace is self-regulated. [ABSTRACT FROM AUTHOR]