氦氧混合气作为载气对活塞式高频喷射通气动物模型通气和氧合的影响:一项交叉实验研究。
Effects of heliox as carrier gas on ventilation and oxygenation in an animal model of piston-type HFOV: a crossover experimental study.
机构信息
Division of Neonatology, Nagano Children's Hospital, Azumino City, Nagano, Japan.
出版信息
Biomed Eng Online. 2010 Nov 12;9:71. doi: 10.1186/1475-925X-9-71.
OBJECTIVE
This study aimed to compare gas exchange with heliox and oxygen-enriched air during piston-type high-frequency oscillatory ventilation (HFOV). We hypothesized that helium gas would improve both carbon dioxide elimination and arterial oxygenation during piston-type HFOV.
METHOD
Five rabbits were prepared and ventilated by piston-type HFOV with carrier 50% helium/oxygen (heliox50) or 50% oxygen/nitrogen (nitrogen50) gas mixture in a crossover study. Changing the gas mixture from nitrogen50 to heliox50 and back was performed five times per animal with constant ventilation parameters. Arterial blood gas, vital function and respiratory test indices were recorded.
RESULTS
Compared with nitrogen50, heliox50 did not change PaCO2 when stroke volume remained constant, but significantly reduced PaCO2 after alignment of amplitude pressure. No significant changes in PaO2 were seen despite significant decreases in mean airway pressure with heliox50 compared with nitrogen50.
CONCLUSION
This study demonstrated that heliox enhances CO2 elimination and maintains oxygenation at the same amplitude but with lower airway pressure compared to air/O2 mix gas during piston-type HFOV.
目的
本研究旨在比较活塞式高频振荡通气(HFOV)中氦气和富氧空气的气体交换情况。我们假设在活塞式 HFOV 中,氦气将改善二氧化碳的清除和动脉氧合。
方法
采用交叉研究的方法,在 5 只兔子中进行活塞式 HFOV 通气,分别使用载气为 50%氦气/氧气(氦氧 50)或 50%氧气/氮气(氮气 50)的混合气。在每只动物中,五次改变混合气从氮气 50 到氦氧 50 再回到氮气 50,同时保持通气参数不变。记录动脉血气、生命体征和呼吸测试指标。
结果
与氮气 50 相比,在保持潮气量不变的情况下,氦氧 50 不会改变 PaCO2,但在调整振幅压力后,PaCO2 明显降低。尽管与氮气 50 相比,平均气道压力显著降低,但 PaO2 没有明显变化。
结论
本研究表明,与空气/O2 混合气相比,在活塞式 HFOV 中,氦气可在相同振幅下增强 CO2 的清除,并维持氧合,但气道压力更低。
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