Objective: We question the hypothesis that vascular tone of human umbilical vein is insensitive to oxygen pressure and minimal already at resting conditions.
Study design: Isometric tension and intracellular membrane potential of native (n = 7) and endothelium-denuded (n = 7) human umbilical vein strips were recorded simultaneously at oxygen pressure values of 5 to 104 mm Hg.
Results: Increasing oxygen pressure from 5 to 104 mm Hg led to graded membrane depolarization from -58.2 +/- 1.3 mV (SEM) to -54.0 +/- 0.7 mV (P <.009) and increased isometric tension from 0.576 +/- 0.016 g to 0.790 +/- 0.032 g (P <.0001). The steepest increase in tension (Delta = 0.063 g) occurred within the physiologic intrauterine oxygen tension range (27-35 mm Hg). Isometric tension at hypoxia (partial oxygen pressure, 5 mm Hg) corresponded to 88% of resting tension. Tension and membrane potential were related linearly (r(2) = 0.99). Disruption of the endothelium reversed the effects of oxygen pressure.
Conclusion: Human umbilical vein vascular tone was regulated by oxygen tension and showed a hypoxic vasodilator reserve. Oxygen-dependent effects were related to the membrane potential and required the endothelium.