sleep quality changes in insomniacs and non-insomniacs after acute altitude exposure and its relationship with acute mountain sickness

Objective: We aimed to observe the changes in subjective sleep quality among insomniacs and non-insomniacs after acute ascending to 3,700 m and its possible relationship with acute mountain sickness (AMS). Methods: A total of 600 adult men were recruited. Subjects’ subjective sleep quality was evaluated by the Athens Insomnia Scale. AMS was assessed using the Lake Louise scoring system. Arterial oxygen saturation was measured. Results: Despite insomnia resolution in only a few subjects, the prevalence of insomnia among insomniacs remained stable at 90% after rapid ascent to 3,700 m. However, among non-insomniacs, the prevalence of insomnia sharply increased to 32.13% in the first day of altitude exposure and progressively reduced to 4.26% by the 60th day of altitude stay. Moreover, the prevalences of insomnia symptoms decreased more markedly from day 1 to day 60 at 3,700 m among non-insomniacs than among insomniacs. At 3,700 m, the prevalence of AMS among insomniacs was 79.01%, 60.49%, and 32.10% on the first, third, and seventh days, respectively, which was significantly higher than that among non-insomniacs. Multivariate regression revealed that elevated Athens Insomnia Scale scores are an independent risk factor for AMS (adjusted odds ratio 1.388, 95% confidence interval: 1.314–1.464, P  0.001), whereas high arterial oxygen saturation and long duration of altitude exposure are protective factors against AMS. Conclusion: Our results suggest that the effect of high-altitude exposure on subjective sleep quality is more marked, but disappears more quickly, among non-insomniacs than among insomniacs, whereas AMS is especially common among insomniacs. Moreover, poor subjective sleep quality is a risk factor for AMS.

[1]  K. Strohl,et al.  Hypoxia-related altitude illnesses. , 2013, Journal of travel medicine.

[2]  M. Carotenuto,et al.  Acupressure therapy for insomnia in adolescents: a polysomnographic study , 2013, Neuropsychiatric disease and treatment.

[3]  E. Caine,et al.  The prevalence of sleep problems and their socio-demographic and clinical correlates in young Chinese rural residents , 2012, Psychiatry Research.

[4]  Marco Túlio de Mello,et al.  High altitude exposure impairs sleep patterns, mood, and cognitive functions. , 2012, Psychophysiology.

[5]  B. Kayser,et al.  Smoking, acute mountain sickness and altitude acclimatisation: a cohort study , 2012, Thorax.

[6]  T. Chiu,et al.  Change in oxygen saturation does not predict acute mountain sickness on Jade Mountain. , 2012, Wilderness & environmental medicine.

[7]  K. Greenlund,et al.  Association of sleep duration and hypertension among US adults varies by age and sex. , 2012, American journal of hypertension.

[8]  Konrad E Bloch,et al.  Effect of short-term acclimatization to high altitude on sleep and nocturnal breathing. , 2012, Sleep.

[9]  J. Gómez-Benito,et al.  A Spanish version of the athens insomnia scale , 2011, Quality of Life Research.

[10]  Robert Roach,et al.  Acute mountain sickness: pathophysiology, prevention, and treatment. , 2010, Progress in cardiovascular diseases.

[11]  M. Siemiński,et al.  Subjective Sleep Quality Alterations at High Altitude , 2009, Wilderness & environmental medicine.

[12]  Alex Gamma,et al.  Prevalence, course, and comorbidity of insomnia and depression in young adults. , 2008, Sleep.

[13]  F. Gorouhi,et al.  Respiratory rate within the first hour of ascent predicts subsequent acute mountain sickness severity. , 2008, Archives of Iranian medicine.

[14]  Tianyi Wu,et al.  Ataxia: an early indicator in high altitude cerebral edema. , 2006, High altitude medicine & biology.

[15]  T. Paparrigopoulos,et al.  The diagnostic validity of the Athens Insomnia Scale. , 2003, Journal of psychosomatic research.

[16]  Xianchen Liu,et al.  Sleep duration, insomnia and behavioral problems among Chinese adolescents , 2002, Psychiatry Research.

[17]  T. Paparrigopoulos,et al.  Athens Insomnia Scale: validation of an instrument based on ICD-10 criteria. , 2000, Journal of psychosomatic research.

[18]  J. Mortola,et al.  Hypoxic depression of circadian rhythms in adult rats. , 2000, Journal of applied physiology.

[19]  J. West,et al.  Room oxygen enrichment improves sleep and subsequent day-time performance at high altitude. , 1998, Respiration physiology.

[20]  M. Maggiorini,et al.  Prevalence of acute mountain sickness in the Swiss Alps. , 1990, BMJ.

[21]  W. Selvamurthy,et al.  Sleep patterns at an altitude of 3500 metres , 1986, International journal of biometeorology.

[22]  J. Weil Sleep at high altitude. , 2004, High altitude medicine & biology.

[23]  J. Weil,et al.  Sleep physiology at high altitude. , 1975, Electroencephalography and clinical neurophysiology.

[24]  E. Swenson,et al.  Acute High-Altitude Illnesses , 2013 .

[25]  Charles S. Houston,et al.  THE LAKE-LOUISE ACUTE MOUNTAIN-SICKNESS SCORING SYSTEM , 1993 .

[26]  K. Asano,et al.  Sleep and respiration under acute hypobaric hypoxia. , 1993, The Japanese journal of physiology.

[27]  N. Nitta,et al.  submit your manuscript | www.dovepress.com , 2022 .