Background. This study was designed to evaluate the incidence of acute mountain sickness (AMS) occurring on different climbing routes on Mount Damavand and the effect of beginning time of ascent in Iranian trekkers. Methods. This study was a descriptive cohort investigation, performed in summer 2007. All trekkers who ascended Mount Damavand from northern, western, eastern, and southern paths and passed 4200?m altitude were included in the study. Two questionnaires were completed for each trekker (personal information and Lake Louise score questionnaire). Multiple logistic regression analysis was used to explore the independent predicting variables for AMS. Results. Overall incidence rate of AMS was 53.6%. This rate was the highest in south route (61.5%) ( ). There was no difference in the incidence of AMS on other paths. AMS history, AMS history on Damavand, the beginning time of climbing, sleeping at 4200?m altitude, and home altitude had significant effect on AMS incidence, but by multiple logistic regression analysis south route and AMS history on Mount Damavand had positive effect on incidence of AMS ( and ). Conclusion. The path and the beginning time of ascent can affect incidence of AMS. The risk of occurrence of AMS was 1.9 times as large for trekkers who ascended from southern route. 1. Introduction Acute mountain sickness (AMS) is a disorder which is seen in ascent to altitudes higher than 3000 meters. It is a clinical syndrome with headache and one or more other symptoms including gastrointestinal symptoms (poor appetite, nausea, vomiting), fatigue and/or weakness, dizziness/lightheadedness, and sleep disturbances [1, 2]. Its diagnosis is based on environmental symptom questionnaires, Hackett or Lake Louise AMS score [3, 4]. Several studies in different countries have been done so far, and incidence rates have been reported from 25% to 69% [2, 5–11]. Some effective factors have been considered in several studies, such as change of altitude related to residence altitude [3, 5, 11], speed of mountain climbing [1, 2, 11], very low and very high range of ages [5, 12], positive history of mountain sickness [8, 11], beginning mountain climbing at night [11], sleep in altitudes more than 3 hours in altitude [1], and water and fluid intake [13]. However, the relation of some factors like age and gender to the incidence of the disease is in doubt. Mount Damavand has four main paths for mountaineers’ ascent. In our previous study, the incidence rate of disease was seen in more than 60% of mountaineers who ascend from the south [11]. Iranian expert
References
[1]
P. H. Hackett and R. C. Roach, “High-altitude illness,” New England Journal of Medicine, vol. 345, no. 2, pp. 107–114, 2001.
[2]
R. C. Roach, J. A. Loeppky, and M. V. Icenogle, “Acute mountain sickness: increased severity during simulated altitude compared with normobaric hypoxia,” Journal of Applied Physiology, vol. 81, no. 5, pp. 1908–1910, 1996.
[3]
R. C. Roach, P. Bartsch, P. H. Hackett, and O. Oelz, “The lake louise AMS scoring consensus committee. The lake louise acute mountain sickness scoring system,” in Proceedings of the 8th International Hypoxia Symposium on Hypoxia and Molecular Medicine, J. R. Sutton, G. Coates, and C. S. Huston, Eds., pp. 272–274, Queen City Press, February 1993.
[4]
J. B. Sampson, A. Cymerman, and R. L. Burse, “Procedures for the measurement of acute mountain sickness,” Aviation Space and Environmental Medicine, vol. 54, no. 12, pp. 1063–1073, 1983.
[5]
B. Honigman, M. K. Theis, J. Koziol-McLain et al., “Acute mountain sickness in a general tourist population at moderate altitudes,” Annals of Internal Medicine, vol. 118, no. 8, pp. 587–592, 1993.
[6]
B. Kayser, D. Jean, J. P. Herry, and P. Bartsch, “Pressurization and acute mountain sickness,” Aviation Space and Environmental Medicine, vol. 64, no. 10, pp. 928–931, 1993.
[7]
D. R. Murdoch and C. Curry, “Acute mountain sickness in the Southern Alps of New Zealand,” New Zealand Medical Journal, vol. 111, no. 1065, pp. 168–169, 1998.
[8]
G. Mistry, Y. Chandrashekhar, U. Sen, and I. S. Anand, “Study of acute mountain sickness during "rapid ascent" trekking to extreme altitude,” The Journal of the Association of Physicians of India, vol. 41, no. 8, pp. 500–502, 1993.
[9]
J. Onopa, A. Haley, and E. Y. Mei, “Survey of acute mountain sickness on Mauna Kea,” High Altitude Medicine and Biology, vol. 8, no. 3, pp. 200–205, 2007.
[10]
D. R. Wagner, J. D. Fargo, D. Parker, K. Tatsugawa, and T. A. Young, “Variables contributing to acute mountain sickness on the summit of Mt Whitney,” Wilderness and Environmental Medicine, vol. 17, no. 4, pp. 221–228, 2006.
[11]
V. Ziaee, M. Yunesian, Z. Ahmadinejad et al., “Acute mountain sickness in Iranian Trekkers around mount damavand (5671?m) in Iran,” Wilderness and Environmental Medicine, vol. 14, no. 4, pp. 214–219, 2003.
[12]
B. Basnyat, D. Subedi, J. Sleggs et al., “Disoriented and ataxic pilgrims: an epidemiological study of acute mountain sickness and high-altitude cerebral edema at a sacred lake at 4300?m in the Nepal Himalayas,” Wilderness and Environmental Medicine, vol. 11, no. 2, pp. 89–93, 2000.
[13]
M. A. Nerín, J. Palop, J. A. Monta?o, J. R. Morandeira, and M. Vázquez, “Acute mountain sickness: influence of fluid intake,” Wilderness and Environmental Medicine, vol. 17, no. 4, pp. 215–220, 2006.
[14]
M. Maggiorini, A. Müller, D. Hofstetter, P. B?rtsch, and O. Oelz, “Assessment of acute mountain sickness by different score protocols in the Swiss alps,” Aviation Space and Environmental Medicine, vol. 69, no. 12, pp. 1186–1192, 1998.
[15]
S. Jafarian, F. Gorouhi, M. Ghergherechi, and J. Lotfi, “Respiratory rate within the first hour of ascent predicts subsequent acute mountain sickness severity,” Archives of Iranian Medicine, vol. 11, no. 2, pp. 152–156, 2008.
[16]
F. Halabchi and R. Mazaheri, “Acute mountain sickness among overnight hotel guests: prevalence, symptoms and signs,” Tehran University Medical Journal, vol. 66, no. 8, pp. 560–566, 2008, (Persian).
[17]
J. J. K. Jaakkola, V. Vilkka, O. Marttila, P. Jappinen, and T. Haahtela, “The South Karelia air pollution study: the effects of malodorous sulfur compounds from pulp mills on respiratory and other symptoms,” American Review of Respiratory Disease, vol. 142, no. 6, pp. 1344–1350, 1990.
[18]
R. C. Roach, D. Maes, D. Sandoval et al., “Exercise exacerbates acute mountain sickness at simulated high altitude,” Journal of Applied Physiology, vol. 88, no. 2, pp. 581–585, 2000.
[19]
F. Zhou, F. Wang, F. Li et al., “Association of hsp70-2 and hsp-hom gene polymorphisms with risk of acute high-altitude illness in a Chinese population,” Cell Stress and Chaperones, vol. 10, no. 4, pp. 349–356, 2005.
[20]
C. Z. Jiang, F. Z. Li, M. A. He et al., “Glutathione S-transferase M1, T1 genotypes and the risk of mountain sickness,” Zhonghua lao Dong wei Sheng Zhi ye Bing za Zhi, vol. 23, no. 3, pp. 188–190, 2005.
[21]
M. Schneider, D. Bernasch, J. Weymann, R. Holle, and P. B?rtsch, “Acute mountain sickness: influence of susceptibility, preexposure, and ascent rate,” Medicine and Science in Sports and Exercise, vol. 34, no. 12, pp. 1886–1891, 2002.
[22]
M. J. Porcelli and G. M. Gugelchuk, “A trek to the top: a review of acute mountain sickness,” Journal of the American Osteopathic Association, vol. 95, no. 12, pp. 718–720, 1995.
[23]
F. A. Moraga, J. D. Osorio, and M. E. Vargas, “Acute mountain sickness in tourists with children at Lake Chungará (4400?m) in northern Chile,” Wilderness and Environmental Medicine, vol. 13, no. 1, pp. 31–35, 2002.
[24]
J. R. Broome, M. D. Stoneham, J. M. Beeley, J. S. Milledge, and A. S. Hughes, “High altitude headache: treatment with ibuprofen,” Aviation Space and Environmental Medicine, vol. 65, no. 1, pp. 19–20, 1994.
[25]
T. P. Lyons, S. R. Muza, P. B. Rock, and A. Cymerman, “The effect of altitude pre-acclimatization on acute mountain sickness during reexposure,” Aviation Space and Environmental Medicine, vol. 66, no. 10, pp. 957–962, 1995.
