Plasma volume expansion does not increase maximal cardiac output or VO2 max in lowlanders acclimatized to altitude

Abstract

With altitude acclimatization, blood hemoglobin concentration increases while plasma volume (PV) and maximal cardiac output (Q̇_max) decrease. This investigation aimed to determine whether reduction of Q̇_max at altitude is due to low circulating blood volume (BV). Eight Danish lowlanders (3 females, 5 males: age 24.0 ± 0.6 yr; mean ± SE) performed submaximal and maximal exercise on a cycle ergometer after 9 wk at 5,260 m altitude (Mt. Chacaltaya, Bolivia). This was done first with BV resulting from acclimatization (BV = 5.40 ± 0.39 liters) and again 2–4 days later, 1 h after PV expansion with 1 liter of 6% dextran 70 (BV = 6.32 ± 0.34 liters). PV expansion had no effect on Q̇_max, maximal O₂ consumption (V̇o₂), and exercise capacity. Despite maximal systemic O₂ transport being reduced 19% due to hemodilution after PV expansion, whole body V̇o₂ was maintained by greater systemic O₂ extraction ( P < 0.05). Leg blood flow was elevated ( P < 0.05) in hypervolemic conditions, which compensated for hemodilution resulting in similar leg O₂ delivery and leg V̇o₂ during exercise regardless of PV. Pulmonary ventilation, gas exchange, and acid-base balance were essentially unaffected by PV expansion. Sea level Q̇_max and exercise capacity were restored with hyperoxia at altitude independently of BV. Low BV is not a primary cause for reduction of Q̇_max at altitude when acclimatized. Furthermore, hemodilution caused by PV expansion at altitude is compensated for by increased systemic O₂ extraction with similar peak muscular O₂ delivery, such that maximal exercise capacity is unaffected.