Association of Venous Function and Post-Exercise Oxygen Consumption

Abstract

Excess post-exercise oxygen consumption (EPOC) has been attributed to metabolic, hemodynamic, neuroendocrine, and pulmonary factors. Interestingly, few studies have examined the role of venous system on EPOC. The purpose of this study was to examine the relationship between measures of vascular function and EPOC. Measures of vascular function and VO₂ recovery kinetics were examined in 20 individuals [age=22+2.41 yrs]. Nondominant forearm arterial inflow, venous capacitance and venous outflow were evaluated at rest and after 5 minutes of upper arm occlusion, using strain gauge plethysmography. VO₂ recovery kinetics was assessed using gas exchange analysis following a six-minute constant work rate protocol at 60 percent of VO₂peak (VO₂@60%), on a cycle ergometer. The average VO₂peak was 33.48±8.22 ml×kg^-1×min^-1 (Range: 18.7 to 46.1 ml×kg^-1×min^-1). Following the six-minute constant work rate protocol, recovery half-time (T_1/2VO₂) and Tau were 17.01±3.51 seconds and 54.45±11.28 seconds, respectively. Arterial resting inflow was 2.77±1.51 ml×100ml^-1×min^-1, reactive hyperemic blood flow was 17.72±3.65 ml×100ml^-1×min^-1, venous capacitance was 2.86±0.72 percent, and venous outflow was 34.19±10.03 ml×100ml^-1×min^-1. Bivariate correlations revealed significant inverse associations between T_1/2VO₂ and the reactive hyperemic response (r=-0.48, p=0.03) and T_1/2VO₂ and venous outflow post-occlusion (r=-0.50, p=0.02). In conclusion, these findings suggest an important role of both the arterial and venous circulation on EPOC.

Tisdell, Eric; Scott, Matthew C.; Bahadir, Zeki; Parish, Tracie; Arce-Esquivel, Arturo; Dobrosielski, Devon; and Welsch, Michael (2013) “Association of Venous Function and Post-Exercise Oxygen Consumption,” International Journal of Exercise Science: Vol. 6 : Iss. 1, Pages 63 – 73.
DOI: https://doi.org/10.70252/OWKL1043

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