Clinical science
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The effects of gas mixtures comprising supplementary 3% carbon dioxide, 35% oxygen or a combination of 3% CO(2) plus 35% O(2) in ambient air have been compared on arterial blood gases, peripheral and cerebral oxygenation and middle cerebral artery velocity (MCAV) at 150 m and on acute exposure to 3459 m in 12 healthy subjects. Breathing 3% CO(2) or 35% O(2) increased arterial blood oxygen at both altitudes, and the CO(2)/O(2) combination resulted in the most marked rise. MCAV increased on ascent to 3459 m, increasing further with 3% CO(2) and decreasing with 35% O(2) at both altitudes. ⋯ Breathing 3% CO(2) or 35% O(2) increased cerebral oxygenation at both altitudes, and the CO(2)/O(2) combination resulted in the greatest rise at both altitudes. The combination also resulted in significant rises in cutaneous and muscle oxygenation at 3459 m. The key role of carbon dioxide in oxygenation at altitude is confirmed, and the importance of this gas for tissue oxygenation is demonstrated.
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Accumulation of neutrophils in the lung contributes to the endothelial damage in the tissue associated with acute respiratory distress syndrome. This initial recruitment of neutrophils within the pulmonary microvasculature may involve P-selectin. Thus we hypothesized that an antibody against P-selectin would reduce pulmonary damage. ⋯ The lymph conjugated dienes were significantly lower in the treated animals. However, lung myeloperoxidase activity and lung tissue conjugated dienes were significantly increased in the treated animals compared with the non-treated injured controls. In conclusion, although the anti-(P-selectin) antibody did not protect against lung injury during the initial 48 h of burn and smoke, it decreased some aspects of injury in the peripheral microcirculation.