Henzler Dietrich, Mahnken Andreas, Dembinski Rolf, Waskowiak Britta, Rossaint Rolf, Kuhlen Ralf
Department of Anesthesiology, Aachen University Hospital, Pauwelsstrasse 30, 52074 Aachen, Germany.
Intensive Care Med. 2005 Feb;31(2):302-10. doi: 10.1007/s00134-004-2512-1. Epub 2004 Dec 9.
Measurements from the pulmonary pressure-volume (PV) curve have been proposed to adjust ventilator settings. We investigated the effects of repeated construction of an inflation PV curve implemented in a standard ventilator on recruitment or derecruitment in acutely injured lungs.
Prospective experimental animal study in eight anesthetized and mechanically ventilated pigs.
Acute lung injury was induced by lung lavage and animals were ventilated in volume controlled mode with PEEP 10 cmH(2)O. The PV curve was constructed five times repeatedly by constant pressure rise, after which ventilation with the preset PEEP was resumed immediately. Studies of hemodynamics, lung mechanics, blood gases and computed tomography were carried out before and after maneuvers.
Derecruitment was assessed as an increase in nonaerated lung volume (V(NON)), and V(PEEP) was the end-expiratory volume difference between PEEP and ZEEP. There was a significant decrease in PaO(2) from 90.4+/-33.3 to 70.9+/-36.3 mmHg and a rise in venous admixture from 47.8+/-12.7 to 59.1+/-16.6%. V(PEEP) was reduced from 244 to 202 ml. A corresponding decrease in normally aerated lung volume was observed, while regression analysis revealed increase in V(NON) depending on the amount of preexisting atelectasis.
Repeated generation of the PV curve with a readily available tool resulted in worsened oxygenation. Derecruitment of the lungs occurred with loss of PEEP at the start of the maneuver, which could not be recovered by a maximum inflation pressure of 40 cmH(2)O. Repeated use of the investigated tool should be cautioned, and users should consider measures to preserve aerated lung volumes.
有人提出通过测量肺压力-容积(PV)曲线来调整呼吸机设置。我们研究了在标准呼吸机上重复构建充气PV曲线对急性损伤肺脏再灌注或去灌注的影响。
对八只麻醉并机械通气的猪进行前瞻性实验动物研究。
通过肺灌洗诱导急性肺损伤,动物在呼气末正压(PEEP)为10 cmH₂O的容量控制模式下通气。通过恒定压力上升重复构建PV曲线五次,之后立即恢复预设PEEP的通气。在操作前后进行血流动力学、肺力学、血气和计算机断层扫描研究。
去灌注通过非充气肺容积(V(NON))增加来评估,V(PEEP)是PEEP和零呼气末正压(ZEEP)之间的呼气末容积差。动脉血氧分压(PaO₂)从90.4±33.3 mmHg显著降至70.9±36.3 mmHg,静脉血掺杂从47.8±12.7%升至59.1±16.6%。V(PEEP)从244 ml降至202 ml。观察到正常充气肺容积相应减少,而回归分析显示V(NON)的增加取决于预先存在的肺不张程度。
使用现成工具重复生成PV曲线会导致氧合恶化。在操作开始时,随着PEEP的丧失出现肺去灌注,这无法通过40 cmH₂O的最大充气压力恢复。应谨慎重复使用所研究的工具,使用者应考虑采取措施保留充气肺容积。