OXYGEN-TRANSPORT DURING STEADY-STATE SUBMAXIMAL EXERCISE IN CHRONIC HYPOXIA

被引:171
|
作者
WOLFEL, EE
GROVES, BM
BROOKS, GA
BUTTERFIELD, GE
MAZZEO, RS
MOORE, LG
SUTTON, JR
BENDER, PR
DAHMS, TE
MCCULLOUGH, RE
MCCULLOUGH, RG
HUANG, SY
SUN, SF
GROVER, RF
HULTGREN, HN
REEVES, JT
机构
[1] UNIV COLORADO,HLTH SCI CTR,CARDIOVASC PULM RES LAB,DENVER,CO 80262
[2] UNIV COLORADO,HLTH SCI CTR,DIV CARDIOL,DENVER,CO 80262
[3] UNIV COLORADO,DEPT KINESIOL,BOULDER,CO 80309
[4] UNIV CALIF BERKELEY,EXERCISE PHYSIOL LAB,BERKELEY,CA 94720
[5] VET ADM MED CTR,PALO ALTO,CA 94304
[6] CUMBERLAND COLL HLTH SCI,LIDCOMBE,NSW 2141,AUSTRALIA
[7] ST LOUIS UNIV,SCH MED,DEPT ANESTHESIOL,ST LOUIS,MO 63104
来源
JOURNAL OF APPLIED PHYSIOLOGY | 1991年 / 70卷 / 03期
关键词
HIGH ALTITUDE; ACCLIMATIZATION; HYPOXIA; OXYGEN CONTENT; CARDIAC OUTPUT; LEG BLOOD FLOW; BLOOD VOLUME; PLASMA NOREPINEPHRINE;
D O I
10.1152/jappl.1991.70.3.1129
中图分类号
Q4 [生理学];
学科分类号
071003 ;
摘要
Arterial O2 delivery during short-term submaximal exercise falls on arrival at high altitude but thereafter remains constant. As arterial O2 content increases with acclimatization, blood flow falls. We evaluated several factors that could influence O2 delivery during more prolonged submaximal exercise after acclimatization at 4,300 m. Seven men (23 +/- 2 yr) performed 45 min of steady-state submaximal exercise at sea level (barometric pressure 751 Torr), on acute ascent to 4,300 m (barometric pressure 463 Torr), and after 21 days of residence at altitude. The O2 uptake (VO2) was constant during exercise, 51 +/- 1% of maximal VO2 at sea level, and 65 +/- 2% VO2 at 4,300 m. After acclimatization, exercise cardiac output decreased 25 +/- 3% compared with arrival and leg blood flow decreased 18 +/- 3% (P < 0.05), with no change in the percentage of cardiac output to the leg. Hemoglobin concentration and arterial O2 saturation increased, but total body and leg O2 delivery remained unchanged. After acclimatization, a reduction in plasma volume was offset by an increase in erythrocyte volume, and total blood volume did not change. Mean systemic arterial pressure, systemic vascular resistance, and leg vascular resistance were all greater after acclimatization (P < 0.05). Mean plasma norepinephrine levels also increased during exercise in a parallel fashion with increased vascular resistance. Thus we conclude that both total body and leg O2 delivery decrease after arrival at 4,300 m and remain unchanged with acclimatization as a result of a parallel fall in both cardiac output and leg blood flow and an increase in arterial O2 content. Blood volume changes alone cannot explain these reductions in blood flow. Possibly, enhanced sympathetic stimulation modulates blood flow through either selected regional or systemic vasoconstriction.
引用
收藏
页码:1129 / 1136
页数:8
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