Alterations in autonomic nervous control of heart rate among tourists at 2700 and 3700 m above sea level.

Objectives Many travelers who are not specially trained for activities at high altitude are at risk of physical problems, including cardiovascular disorders, when exposed to high-altitude environments. In the present study, we investigated how actual acute exposure to altitudes of 2700 and 3700m affected the autonomic nervous control of heart rate in untrained office workers. Methods Physiological parameters (heart rate, respiratory rate, arterial blood oxygen saturation, and end-expiratory carbon dioxide tension) were measured at sea level, 2700m, and 3700m. The power of heart rate variability was quantified by determining the areas of the spectrum in 2 component widths: low frequency (LF; 0.04–0.15Hz) and high frequency (HF; 0.15–0.5Hz). The ratio of LF power to HF power (LF:HF), which is considered to be an index of cardiac sympathetic tone, was also assessed. Results Both HF and LF heart rate variability decreased according to the elevation of altitude. High- and low-frequency powers at 3700m were significantly lower than those at sea level ( P P P Conclusions At 2700 and 3700m, the activity of the autonomic nervous system measured by heart rate variability was decreased in untrained office workers. The sympathetic nervous system was dominant to the parasympathetic at 3700m. These alterations in the autonomic nervous system might play some role in physical fitness at high altitudes.