yam63(3)_163.pdf 1.49 MB
Otani, Shinji International Platform for Dryland Research and Education, Tottori University 研究者総覧 KAKEN
Miyaoka, Yoichi Department of Gastroenterological Surgery I, Hokkaido University
Ikeda, Atsushi Department of Urology, University of Tsukuba Hospital
Ohno, Giichiro Department of Surgery, Tokatsu Hospital
Imura, Satoshi National Institute of Polar Research
Watanabe, Kentaro National Institute of Polar Research
Kurozawa, Youichi Division of Health Administration and Promotion, Department of Social Medicine, School of Medicine, Faculty of Medicine, Tottori University 研究者総覧 KAKEN
[Background] The Japanese Antarctic Research Expedition (JARE) has been conducting research activities in inland Antarctica, which is extremely cold dryland covered with a thick ice sheet. This environment may cause a health disorder called acute mountain sickness (AMS). To improve the safety of expedition members, we evaluated the impact of extreme environmental conditions on human health and the effectiveness of monitoring of hypoxia for the early detection of AMS. [Methods] In total, 9 members from JARE 59 were studied. Dome Fuji Station (Dome F), located 3,810 m above sea level (ASL), was the destination of the research party. We analyzed daily AMS scores (higher values correspond to more severe AMS-related symptoms), physiological findings, and percutaneous arterial blood oxygen saturation (SpO2) during the inland activity. We also determined the factors related to AMS scores. [Results] The average AMS score on arrival at Dome F was significantly higher than that at the departure point (560 m ASL). The average SpO2 level was significantly lower than that at other points. The SpO2 level correlated negatively with the AMS score in Spearman’s rank correlation. Generalized estimating equations analysis showed that the AMS score was negatively associated with SpO2 level and positively associated with age. [Conclusion] Hypoxia is a contributory factor to AMS which we can easily assess by measuring the SpO2 level with a pulse oximeter. SpO2 monitoring is a potentially useful health management tool for members in inland Antarctic expeditions. In addition, our results are helpful for understanding physiological responses and health issues in extreme environments.
Tottori University Medical Press
Yonago Acta Medica
Yonago Acta Medica
注があるものを除き、この著作物は日本国著作権法により保護されています。 / This work is protected under Japanese Copyright Law unless otherwise noted.
Otani Shinji, Miyaoka Yohei, Ikeda Atsushi et al. Evaluating Health Impact at High Altitude in Antarctica and Effectiveness of Monitoring Oxygen Saturation. Yonago Acta Medica. 2020, 63(3). 163-172. doi: 10.33160/yam.2020.08.004.