Urlesberger B, Zobel G, Dacar D, Rödl S, Trafojer U, Trantina A, Knez J
Dept. of Neonatology, University of Graz, Austria.
Intensive Care Med. 1999 May;25(5):496-502. doi: 10.1007/s001340050887.
To investigate the effect of the combination of kinetic therapy (KT) with partial liquid ventilation (PLV) on gas exchange, lung mechanics and hemodynamics in acute lung injury (ALI).
Prospective, randomized, controlled pilot study.
University research laboratory.
Eleven piglets weighing 8.3+/-0.9 kg.
ALI was induced by the infusion of oleic acid (0.08 ml/kg) and repeated lung lavages with 0.9% NaCl (20 ml kg(-1)). Thereafter the animals were randomly assigned either for PLV or a combination of PLV with KT (PLV/KT). The dose of perfluorocarbon administered was 30 ml/kg, evaporative losses were substituted with 5 ml/kg per h.
Airway pressures, tidal volumes, dynamic compliance (Cdyn), expiratory airway resistance and arterial blood gases were measured. Hemodynamic monitoring included right atrial, mean pulmonary artery, pulmonary capillary wedge and mean systemic arterial pressures, and continuous flow recording of the pulmonary artery. In both groups the induction of ALI significantly reduced PaO2/FIO2 Cdyn and cardiac output, and significantly increased pulmonary artery pressure. After the initiation of PLV there was a significant increase of PaO2/FIO2, and Cdyn, and a significant decrease of pulmonary artery pressure in both groups. Except the PaCO2, which showed significantly lower values in the PLV/KT group, no variables showed any differences between the two groups.
The additional use of KT did not show beneficial effects on oxygenation and lung mechanics during PLV. However, at constant minute ventilation PaCO2 levels were significantly lower during PLV/KT, indicating some positive influence on the ventilation/perfusion distribution within the lung. Extreme body positions during PLV/KT did not show any significant hemodynamic side effects.
探讨动态治疗(KT)联合部分液体通气(PLV)对急性肺损伤(ALI)患者气体交换、肺力学和血流动力学的影响。
前瞻性、随机、对照试验研究。
大学研究实验室。
11头体重8.3±0.9千克的仔猪。
通过输注油酸(0.08毫升/千克)和用0.9%氯化钠(20毫升/千克)反复进行肺灌洗诱导ALI。此后,将动物随机分为接受PLV组或PLV联合KT组(PLV/KT)。全氟化碳给药剂量为30毫升/千克,每小时用5毫升/千克替代蒸发损失量。
测量气道压力、潮气量、动态顺应性(Cdyn)、呼气气道阻力和动脉血气。血流动力学监测包括右心房、平均肺动脉、肺毛细血管楔压和平均体动脉压,以及肺动脉连续血流记录。两组中ALI的诱导均显著降低了PaO2/FIO2、Cdyn和心输出量,并显著升高了肺动脉压。开始PLV后,两组的PaO2/FIO2和Cdyn均显著升高,肺动脉压显著降低。除PLV/KT组的PaCO2值显著较低外,两组之间的其他变量均无差异。
在PLV期间额外使用KT对氧合和肺力学未显示出有益效果。然而,在恒定分钟通气量时,PLV/KT期间的PaCO2水平显著较低,表明对肺内通气/血流分布有一定积极影响。PLV/KT期间的极端体位未显示出任何显著的血流动力学副作用。
