Intrapulmonary and intracardiac shunting with exercise at altitude.

Recent studies in normal participants have shown that right to left shunt blood vessels in the lung open up during exercise. We describe the first field study to investigate this phenomenon at altitude. This study aimed to assess the effect of altitude and partial acclimatization on inducible right to left shunting at rest and with exercise. A contrast-enhanced transcranial Doppler imaging technique to detect microbubbles after injection of blood and saline agitated with air was used to measure right to left shunting in 10 normal participants at rest and immediately after exercising to maximum oxygen consumption (VO(2max)) at 80 m, on acute exposure to 3450 m, and finally after a week above 3450 m. At 80 m, exercising resulted in right to left shunting via patent foramen ovale in 2 participants, but there was no evidence of shunting in the remaining 8 participants. Cerebral microbubbles were detected at rest in the 2 participants with patent foramen ovale on acute exposure to 3450 m, and the shunting increased on exercise (P = .04). In 5 of the remaining 8 participants without patent foramen ovale, cerebral microbubbles were detected on exercise (P = .04) but not at rest. Partial acclimatization had minimal effect on the prevalence or magnitude of the intrapulmonary or intracardiac shunts. Oxygenation was similar in those with shunts compared with those without shunts. Intrapulmonary shunting occurs on exercise at altitude, but the clinical and physiologic significances have yet to be determined. Despite the occurrence of shunting in most participants, our results suggest that this phenomenon is not a significant factor in altitude and exercise-induced hypoxia.

Effect of sildenafil and acclimatization on cerebral oxygenation at altitude.

Phosphodiesterase-5 inhibitors decrease hypoxic pulmonary vasoconstriction under hypobaric hypoxia, but are not known to affect cerebral blood flow or oxygenation. The present study was designed to evaluate the effect of sildenafil on cerebral haemodynamics during acute exposure to altitude and after acclimatization. Ten subjects were studied 1 and 3 days after rapid ascent to 3480 m before and for two consecutive hours after taking sildenafil (50 mg). Before acclimatization, HR (heart rate) rose at 1 h (76.3+/-1.0 beats/min compared with 72.5+/-1.5 beats/min at baseline; P<0.05) and had returned to baseline at 2 h (71.3+/-1.1 beats/min; P>0.05). Mean BP (blood pressure) fell from 96.0+/-2.0 mmHg at baseline to 91.7+/-2.5 (P<0.001) at 1 h and 89.8+/-1.8 mmHg (P<0.0001) at 2 h, whereas SaO2 (arterial oxygen saturation) increased from 83.9+/-0.5% at baseline to 85.3+/-0.4% (P<0.0001) at 1 h and 85.0+/-0.5% (P<0.01) at 2 h. MCAV [MCA (middle cerebral artery) velocity] and PETCO2 (end-tidal partial pressure of CO2) were unchanged, but rSO2 (regional cerebral oxygen saturation) rose progressively at 1 h (62.7+/-0.8%; P<0.05) and 2 h (65.3+/-0.9%; P<0.0001) compared with baseline (59.3+/-1.3%). After 3 days of acclimatization, resting rSO2 and RMCA (MCA resistance) increased and oxygen delivery fell. Changes in HR and mean BP after sildenafil were similar to day 1, but SaO2 did not change. However, rSO2 increased [61.7+/-0.9% at baseline to 65.0+/-1.0% (P<0.0001) at 1 h and 64.0+/-0.9% (P<0.001) at 2 h], despite a reduction in MCAV [65.3+/-1.8 cm/s at baseline to 61.3+/-1.5 cm/s (P<0.01) at 1 h and 60.9+/-1.7 cm/s (P<0.0001) at 2 h] and PETCO2 [4.1+/-0.05 kPa at baseline to 4.0+/-0.04 kPa at 2 h (P<0.01)]. These observations suggest that sildenafil improves cerebral oxygenation at altitude. Whereas the early changes before acclimatization may be largely pulmonary in origin, the later observations may be a direct cerebral effect which warrants further study.