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Autonomic control of the cardiovascular system during acclimatization to high altitude: effects of sildenafil

¹Laboratoire Réponses Cellulaires et Fonctionnelles à l'Hypoxie, Université Paris 13, 93017 Bobigny; and ²Ecole Nationale de Ski et d'Alpinisme, 74401 Chamonix, France

Submitted 4 March 2004 ; accepted in final form 8 May 2004

Both acute hypoxia and sildenafil may influence autonomic control through transient cardiovascular effects. In a double-blind study, we investigated whether sildenalfil (Sil) could interfere with cardiovascular effects of hypoxia. Twelve healthy men [placebo (Pla) n = 6; Sil, n = 6] were exposed to an altitude of 4,350 m during 6 days. Treatment was continuously administered from 6 to 8 h after arrival at altitude (3 x 40 mg/day). The autonomic control on the heart was assessed by heart rate variability (HRV) during sleep at sea level (SL) and between day 1–2 and day 5–6 in hypoxia. Arterial pressure (AP) and total peripheral resistances (TPR) were obtained during daytime. There was no statistical difference between groups in HRV, AP, and TPR throughout the study. Hypoxia induced a decrease in R-R interval and an increase in AP in both groups. Low frequency-to-high frequency ratio increased at day 1–2 (Pla, P = 0.04; Sil, P = 0.02) and day 5–6 (Pla and Sil, P = 0.04) vs. SL, whereas normalized high-frequency power decreased only in Pla (P = 0.04, day 1–2 vs. SL). Normalized low-frequency power increased at high altitude (Pla and Sil, P = 0.04, day 5–6 vs. SL). TPR decreased at day 2 in Pla (P = 0.02) and tended to normalize at day 6 (P = 0.07, day 6 vs. day 2). Acute hypoxia induced a decrease in parasympathetic and increase in sympathetic tone, which tended to be reversed with acclimatization. Sil had no deleterious effects on the cardiovascular response to high-altitude exposure and its control by the autonomic nervous system.

autonomic nervous system; hypoxia

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				R. Fazan Jr, D. A. Huber, C. A. A. Silva, V. J. Dias da Silva, M. C. O. Salgado, and H. C. Salgado Sildenafil acts on the central nervous system increasing sympathetic activity J Appl Physiol, June 1, 2008; 104(6): 1683 - 1689. [Abstract] [Full Text] [PDF]