Intraocular Pressure at a Simulated Altitude of 9000 m With and Without 100% Oxygen
Ersanli D, Yildiz S, Sonmez M, Akin A, Sen A, Uzun G. Intraocular pressure at a simulated altitude of 9000 m with and without 100% oxygen. Aviat Space Environ Med 2006; 77:704–706.
Introduction: Exposure to high altitude may affect intraocular pressure (IOP). This study aimed to determine how IOP was altered by two different inspired oxygen tensions at altitude. Methods: There were 34 healthy male pilots, ages 26–39 yr (mean 31.9 yr), who were studied at the Air Health Examination and Physiological Training Centre in Eskisehir, Turkey. They were studied at ground level, which is 792 m (2414 ft), and during a training session in a hypobaric chamber at a simulated altitude of 9144 m (30,000 ft). IOP was measured with a Tone-pen XL tonometer before subjects entered the chamber, at altitude while breathing 100% oxygen by mask and after removing the mask, and again 30 min after leaving the chamber. Results: Ground level values for IOP (mean ± SD) were 12.31 ± 2.98 mmHg. Levels increased significantly at altitude on oxygen (16.75 ± 4.14 mmHg) and decreased slightly on breathing ambient air (14.37 ± 3.44 mmHg). In 30 min after leaving the chamber, IOP was 12.81 ± 1.74 mmHg, indistinguishable from pre-test values. Discussion: Healthy subjects whose baseline IOP is in the normal range experience only a small, temporary elevation of IOP during passive exposure to high altitude with either normoxia or acute hypoxia.
Introduction: Exposure to high altitude may affect intraocular pressure (IOP). This study aimed to determine how IOP was altered by two different inspired oxygen tensions at altitude. Methods: There were 34 healthy male pilots, ages 26–39 yr (mean 31.9 yr), who were studied at the Air Health Examination and Physiological Training Centre in Eskisehir, Turkey. They were studied at ground level, which is 792 m (2414 ft), and during a training session in a hypobaric chamber at a simulated altitude of 9144 m (30,000 ft). IOP was measured with a Tone-pen XL tonometer before subjects entered the chamber, at altitude while breathing 100% oxygen by mask and after removing the mask, and again 30 min after leaving the chamber. Results: Ground level values for IOP (mean ± SD) were 12.31 ± 2.98 mmHg. Levels increased significantly at altitude on oxygen (16.75 ± 4.14 mmHg) and decreased slightly on breathing ambient air (14.37 ± 3.44 mmHg). In 30 min after leaving the chamber, IOP was 12.81 ± 1.74 mmHg, indistinguishable from pre-test values. Discussion: Healthy subjects whose baseline IOP is in the normal range experience only a small, temporary elevation of IOP during passive exposure to high altitude with either normoxia or acute hypoxia.
Keywords: high altitude; intraocular pressure; ocular tonometry
Document Type: Research Article
Publication date: 01 July 2006
- The peer-reviewed monthly journal, Aviation, Space, and Environmental Medicine (ASEM) provides contact with physicians, life scientists, bioengineers, and medical specialists working in both basic medical research and in its clinical applications. It is the most used and cited journal in its field. ASEM is distributed to more than 80 nations.
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