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Vol. 83, Issue 6, 2098-2104, December 1997
1 Department of Anthropology, University of Colorado at Denver, Denver 80217-3364; 2 Tibet Institute of Medical Sciences, Lhasa, Tibet Autonomous Region, China 850000; and 3 Cardiovascular Pulmonary Research Laboratory, University of Colorado Health Sciences Center, Denver, Colorado 80262
Received 29 July 1996; accepted in final form 7 August 1997.
Curran, Linda S., Jianguo Zhuang, Shin Fu Sun, and Lorna G. Moore. Ventilation and hypoxic ventilatory responsiveness in
Chinese-Tibetan residents at 3,658 m. J. Appl.
Physiol. 83(6): 2098-2104, 1997.
When breathing
ambient air at rest at 3,658 m altitude, Tibetan lifelong residents of
3,658 m ventilate as much as newcomers acclimatized to high altitude;
they also ventilate more and have greater hypoxic ventilatory responses
(HVRs) than do Han ("Chinese") long-term residents at 3,658 m.
This suggests that Tibetan ancestry is advantageous in protecting
resting ventilation levels during years of hypoxic exposure and is of
interest in light of the permissive role of hypoventilation in the
development of chronic mountain sickness, which is nearly absent among
Tibetans. The existence of individuals with mixed Tibetan-Chinese
ancestry (Han-Tibetans) residing at 3,658 m affords an opportunity to
test this hypothesis. Eighteen men born in Lhasa, Tibet, China (3,658 m) to Tibetan mothers and Han fathers were compared with 27 Tibetan men
and 30 Han men residing at 3,658 m who were previously studied. We used
the same study procedures (minute ventilation was measured with a
dry-gas flowmeter during room air breathing and hyperoxia and with a
13-liter spirometer-rebreathing system during the hypoxic and
hypercapnic tests). During room air breathing at 3,658 m (inspired O2 pressure = 93 Torr),
Han-Tibetans resembled Tibetans in ventilation (12.1 ± 0.6 vs.
11.5± 0.5 l/min BTPS,
respectively) but had HVR that were blunted (63 ± 16 vs. 121 ± 13, respectively, for HVR shape parameter
A) and declined with increasing
duration of high-altitude residence. During administered hyperoxia
(inspired O2 pressure = 310 Torr)
at 3,658 m, the paradoxical hyperventilation previously seen in Tibetan
but not Han residents at 3,658 m (11.8 ± 0.5 vs. 10.1 ± 0.5 l/min BTPS) was absent in these
Han-Tibetans (9.8 ± 0.6 l/min
BTPS). Thus, although longer
duration of high-altitude residence appears to progressively blunt HVR
among Han-Tibetans born and residing at 3,658 m, their Tibetan ancestry
appears protective in their maintenance of high resting ventilation
levels despite diminished chemosensitivity.
control of breathing; hypoxic ventilatory depression; high altitude
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