Study of Cardiopulmonary Function on Exposure to High Altitude

Kamat, S. R.; Rao, T. L.K.; Sarma, B; Venkataraman, Chantel M.; Raju, Vijaykumar

doi:10.1164/arrd.1972.106.3.414

Cited by 7 publications

(1 citation statement)

References 25 publications

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“…Vital capacities have also been demonstrated to be larger in Himalayan populations as compared to sea-level residents (Hackett et al, 1980;Kamat et al, 1972;Sun et al, 1990;Droma et al, 1991;Zhuang et al, 1993;Wood et al, 2003). However, Tibetan residents of HA neither hypoventilate nor exhibit a blunted HVR .…”

Section: Apte and Raomentioning

confidence: 99%

The Maximum Expiratory Flow-Volume Loop in Natives of Ladakh and Acclimatized Lowlanders

Apte

Rao²

2005

High Altitude Medicine & Biology

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Differences in static and dynamic volumes may exist between high altitude residents of Indian Himalayas and their South American counterparts, as well as with acclimatized lowlander sojourners. Maximum expiratory flow-volume loops were recorded in healthy native highlanders of Ladakh (NH, N = 75) and in healthy acclimatized lowlanders (AL, N = 32) at an altitude of 3450 m in the western Indian Himalayas. The forced vital capacity (FVC) and forced expiratory volume in the first second (FEV1), both corrected for a height of 168 cm, were significantly higher in NH [FVC: 5.02 (0.51) vs. 3.89 (0.45) L, p < 0.0001; FEV1: 4.27 (0.47) vs. 3.44 (0.37) L, p < 0.0001]. The flow rates at larger lung volumes (PEFR, FEF25, and FEF50) were similar in the two groups. The NH showed significantly higher flow rates at low lung volumes, that is, FEF75 and FEF75-85% [FEF75: 2.03 (0.69) vs. 1.70 (0.52) L/s, p = 0.0092; FEF75-85%: 1.42 (0.54) vs. 1.06 (0.35) L/s, p = 0.0001]. The exact mechanisms allowing the higher flow rates at low lung volumes remain to be elucidated, but it is possible that these findings may indicate an inherited adaptive response in the Ladakhi highlander.

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