Bitzén Ulrika, Enoksson Jens, Uttman Leif, Niklason Lisbet, Johansson Leif, Jonson Björn
Department of Clinical Physiology, Lund University Hospital, Sweden.
Clin Physiol Funct Imaging. 2006 Mar;26(2):113-9. doi: 10.1111/j.1475-097X.2006.00660.x.
To develop a method for automatic recording of multiple dynamic elastic pressure-volume (P(el)/V) loops. To analyse the relationship between multiple dynamic P(el)/V loops and static P(el)/V loops in a porcine model of acute lung injury/acute respiratory distress syndrome (ALI/ARDS). To test the hypothesis that increasing lung collapse and re-expansion with decreasing positive end expiratory pressure (PEEP) can be characterized by hysteresis of the P(el)/V loops. MATERIAL AND INTERVENTIONS: In eight anaesthetized and paralysed pigs, ALI/ARDS was induced by inhalation of dioctyl sodium sulfosuccinate and large tidal volume ventilation.
The physiological and histopathological findings indicated a status mimicking an early stage of ALI/ARDS. Automatically, a series of dynamic P(el)/V loops from different PEEP levels were recorded with the sinusoidal flow modulation method using a computer-controlled ventilator. During expiration, resistance increased more than twofold. For each step of lower starting pressure, the inspiratory limb was displaced towards lower volume indicating derecruitment. Recruitment occurred between 20 and 40 cm H(2)O. The expiratory curves, all starting from 50 cm H(2)O, overlapped. Hysteresis increased significantly in loops recorded from lower PEEP levels. Viscoelasticity explained differences between static and dynamic P(el)/V loops.
Automated multiple P(el)/V loop determination is feasible and provides comprehensive information on lung derecruitment and recruitment. It requires determination of volume dependence of expiratory resistance. An expiratory curve serves as a reference to inspiratory curves and provides information about hysteresis.
开发一种自动记录多个动态弹性压力-容积(P(el)/V)环的方法。分析急性肺损伤/急性呼吸窘迫综合征(ALI/ARDS)猪模型中多个动态P(el)/V环与静态P(el)/V环之间的关系。检验以下假设:随着呼气末正压(PEEP)降低,肺萎陷和复张增加可通过P(el)/V环的滞后现象来表征。材料与干预措施:在八只麻醉并麻痹的猪中,通过吸入二辛基磺基琥珀酸钠和大潮气量通气诱导ALI/ARDS。
生理和组织病理学结果表明模拟了ALI/ARDS早期阶段的状态。使用计算机控制的呼吸机,通过正弦流调制方法自动记录了来自不同PEEP水平的一系列动态P(el)/V环。呼气期间,阻力增加了两倍多。对于每个较低起始压力步骤,吸气支向较低容积移位,表明肺不张。在20至40 cm H₂O之间发生肺复张。所有从50 cm H₂O开始的呼气曲线重叠。从较低PEEP水平记录的环中滞后现象显著增加。粘弹性解释了静态和动态P(el)/V环之间的差异。
自动测定多个P(el)/V环是可行的,并提供有关肺不张和肺复张的全面信息。这需要确定呼气阻力的容积依赖性。呼气曲线作为吸气曲线的参考,并提供有关滞后现象的信息。
