Thousands of boy scouts travel to Philmont Scout Ranch (PSR) in Cimarron, New Mexico each year in hopes of improving their wilderness survival skills by ascending its rugged, mountainous terrain. Elevations at PSR range from 2011 to 3792 m, in sharp contrast to the lower elevations the boy scouts are used to. Those with a history of daily headaches, gastrointestinal illnesses, and prior acute mountain sickness were found to be most at risk of developing altitude related illnesses while ascending PSR. The incidence of acute mountain sickness was 13.7% at PSR when participants ascended from base camp (2011 m) to 3000m+ as compared to up to 67% in other staged ascent studies [3]. Similarly to PSR, millions of people ascend the Colorado Rocky Mountains during ski season and face the same potential complications. This risk makes it abundantly important to investigate potential ways to prevent the development of altitude related illnesses.

Oxygen from inspired air (air breathed in) flows down its concentration gradient from the alveolar space into the blood, where it is carried primarily bound to hemoglobin and delivered to tissue. At high altitudes, oxygen availability and barometric pressure decrease remarkably, hindering the concentration gradient and increasing the risk of tissue hypoxia [2]. Progressive tissue hypoxia eventually leads to high altitude illnesses (HAI), which are cerebral and pulmonary syndromes resulting from rapid ascent. The likelihood of developing these disease processes can be greatly reduced if the body is given time to acclimate to the increased altitude. This is especially relevant during the holidays, when many are traveling from lower altitudes to higher altitudes abruptly for vacation or to visit with family.

This raises the question: should travelers spend the night in Denver before ascending into the mountains to allow for acclimatization and reduce the risk of HAI?

The rate of acclimatization, or the body’s ability to adjust to and accommodate increased oxygen requirement, is difficult to generalize given rate of ascension is not the only factor that influences the development of HAI. This process can take anywhere from days to potentially months depending on a number of factors including cardiopulmonary comorbidities, a history of HAI, genetics, certain medications, substance usage, and degree of physical exertion amongst others [5].

Despite the multifactorial nature of developing HAI, rate of ascent remains one of the primary risk factors. Studies have shown that spending time at moderate altitude before ascending to higher altitudes in a process called “staged ascent” decreases the likelihood of developing HAI in unacclimatized individuals [4]. A recent study conducted at the U.S. Army Research Institute of Environmental Medicine assessed incidence of acute mountain sickness (AMS, a subcategory of HAI), in unacclimatized individuals who were staged for 2 days at altitudes of 2500 m, 3000 m, and 3500 m respectively before ascending to 4300 m. Another group ascended directly to 4300 m without staging. Ultimately, the incidence of AMS was significantly lower in the staged groups than in the direct ascent group; AMS incidence in the staged groups was up to 67%, while AMS incidence in the direct ascent group was up to 83% [1].

Graphs A and B show that the incidence of AMS at 4300 m is reduced when unacclimatized individuals are staged at 2500 m, 3000 m, and 3500 m as compared to those who directly ascended to 4300 m [1].

Given the above information, unacclimatized individuals, skiers and boy scouts alike, may benefit from spending the night in Denver before coming to the mountains, as this mimics staged ascent and thus decreases the incidence of HAI.

References

[1] Beth A. Beidleman et al. “Acute Mountain Sickness is Reduced Following 2 Days of Staging During Subsequent Ascent to 4300m”. In: High Altitude Medicine & Biology 19.4 (2018). Published Online: 21 December 2018, pp. xxx–xxx. doi: 10.1089/ham.2018.0048. 

[2] Chris Imray et al. “Acute Mountain Sickness: Pathophysiology, Prevention, and Treatment”. In: Progress in Cardiovascular Diseases 52.6 (May 2010), pp. 467–484. doi: 10.1016/j.pcad.2009.11.003.

[3] Courtney LL Sharp et al. “Incidence of Acute Mountain Sickness in Adolescents Backpacking at Philmont Scout Ranch”. In: Wilderness and Environmental Medicine 35.4 (2024), pp. 403-408

[4] Andrew M. Luks, Erik R. Swenson, and Peter B¨artsch. “Acute high-altitude sickness”. In: European Respiratory Review 26.143 (Jan. 2017), p. 160096. doi: 10.1183/16000617.0096-2016.

[5] Michael Schneider et al. “Acute mountain sickness: influence of susceptibility, preexposure, and ascent rate”. In: Medicine & Science in Sports & Exercise 34.12 (Dec. 2002), pp. 1886–1891

Matison Miratsky is a physician assistant student who attends Midwestern University in Arizona with plans to go into OB/GYN. Before PA school, she grew up in Denver, Colorado and attended the University of Colorado at Boulder. She worked in an emergency department in Denver, then at a family medicine clinic in Arizona. Her personal interests include snowboarding, watching movies, spending time with family, and cooking.