Pulmonary vascular reactivity to supplemental oxygen in Sherpa and lowlanders during gradual ascent to high altitude

Prajan Subedi; Christopher Gasho; Michael Stembridge; Alexandra M. Williams; Alexander Patrician; Philip N. Ainslie; James D. Anholm

doi:10.1113/EP090458

Experimental Physiology (Jan 2023)

Pulmonary vascular reactivity to supplemental oxygen in Sherpa and lowlanders during gradual ascent to high altitude

Prajan Subedi,
Christopher Gasho,
Michael Stembridge,
Alexandra M. Williams,
Alexander Patrician,
Philip N. Ainslie,
James D. Anholm

Affiliations

Prajan Subedi: Division of Pulmonary Critical Care, Sleep, Hyperbaric Medicine and Allergy Dept. of Medicine Loma Linda University School of Medicine Pulmonary Section VA Loma Linda Healthcare System Loma Linda California USA
Christopher Gasho: Division of Pulmonary Critical Care, Sleep, Hyperbaric Medicine and Allergy Dept. of Medicine Loma Linda University School of Medicine Pulmonary Section VA Loma Linda Healthcare System Loma Linda California USA
Michael Stembridge: Cardiff School of Sport and Health Sciences Cardiff Metropolitan University Cardiff UK
Alexandra M. Williams: Department of Cellular and Physiological Sciences Faculty of Medicine University of British Columbia Vancouver BC Canada
Alexander Patrician: Centre for Heart, Lung and Vascular Health Faculty of Health and Social Development University of British Columbia – Okanagan Kelowna BC Canada
Philip N. Ainslie: Centre for Heart, Lung and Vascular Health Faculty of Health and Social Development University of British Columbia – Okanagan Kelowna BC Canada
James D. Anholm: Division of Pulmonary Critical Care, Sleep, Hyperbaric Medicine and Allergy Dept. of Medicine Loma Linda University School of Medicine Pulmonary Section VA Loma Linda Healthcare System Loma Linda California USA

DOI: https://doi.org/10.1113/EP090458
Journal volume & issue: Vol. 108, no. 1
pp. 111 – 122

Abstract

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Abstract Prolonged alveolar hypoxia leads to pulmonary vascular remodelling. We examined the time course at altitude, over which hypoxic pulmonary vasoconstriction goes from being acutely reversible to potentially irreversible. Study subjects were lowlanders (n = 20) and two Sherpa groups. All Sherpa were born and raised at altitude. One group (ascent Sherpa, n = 11) left altitude and after de‐acclimatization in Kathmandu for ∼7 days re‐ascended with the lowlanders over 8–10 days to 5050 m. The second Sherpa group (non‐ascent Sherpa, n = 12) remained continuously at altitude. Pulmonary artery systolic pressure (PASP) and pulmonary vascular resistance (PVR) were measured while breathing ambient air and following supplemental oxygen. During ascent PASP and PVR increased in lowlanders and ascent Sherpa; however, with supplemental oxygen, lowlanders had significantly greater decrease in PASP (P = 0.02) and PVR (P = 0.02). After ∼14 days at 5050 m, PASP decreased with supplemental oxygen (mean decrease: 3.9 mmHg, 95% CI 2.1–5.7 mmHg, P < 0.001); however, PVR was unchanged (P = 0.49). In conclusion, PASP and PVR increased with gradual ascent to altitude and decreased via oxygen supplementation in both lowlanders and ascent Sherpa. Following ∼14 days at 5050 m altitude, there was no change in PVR to hypoxia or O2 supplementation in lowlanders or either Sherpa group. These data show that both duration of exposure and residential altitude influence the pulmonary vascular responses to hypoxia.

Published in Experimental Physiology

ISSN: 0958-0670 (Print); 1469-445X (Online)
Publisher: Wiley
Country of publisher: United States
LCC subjects: Science: Physiology
Website: https://physoc.onlinelibrary.wiley.com/journal/1469445X

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