Balogh Adam L, Peták Ferenc, Fodor Gergely H, Sudy Roberta, Babik Barna
Department of Anesthesiology and Intensive Therapy, University of Szeged, Szeged, Hungary; Department of Medical Physics and Informatics, University of Szeged, Szeged, Hungary.
Department of Medical Physics and Informatics, University of Szeged, Szeged, Hungary.
J Cardiothorac Vasc Anesth. 2017 Dec;31(6):2017-2026. doi: 10.1053/j.jvca.2017.02.186. Epub 2017 Feb 24.
To investigate sevoflurane's potential to alleviate the detrimental pulmonary changes after cardiopulmonary bypass (CPB).
Prospective, randomized clinical investigation.
University hospital.
One hundred ninety patients undergoing elective cardiac surgery.
Ninety-nine patients under intravenous anesthesia were administered 1 minimal alveolar concentration of sevoflurane for 5 minutes after being weaned from CPB (group SEV); intravenous anesthesia was maintained in the other 91 patients (group CTRL).
Measurements were performed with open chest: before CPB, after CPB, and after intervention. The lungs' mechanical impedance and capnogram traces were recorded, arterial and central venous blood samples were analyzed, and lung compliance was documented. Airway resistance, tissue damping, and elastance were obtained from the impedance spectra. The capnogram phase III slope was determined using linear regression. The partial pressure of oxygen in the arterial blood/fraction of inspired oxygen ratio and shunt fraction were calculated from blood gas parameters. After CPB, sevoflurane induced bronchodilation, reflected in marked drops in airway resistance and smaller improvements in lung tissue viscoelasticity indicated by decreases in tissue damping and elastance. These changes were reflected in a decreased capnogram phase III slope and shunt fraction and increased partial pressure of oxygen in the arterial blood/fraction of inspired oxygen ratio and lung compliance. The more severe deteriorations that occurred after CPB, the greater improvements by sevoflurane were observed.
Sevoflurane can alleviate CPB-induced bronchoconstriction, compromised lung tissue mechanics, and enhanced intrapulmonary shunt. This benefit has particular importance in patients with severe CPB-induced lung function deterioration.
探讨七氟醚减轻体外循环(CPB)后肺部有害变化的潜力。
前瞻性、随机临床研究。
大学医院。
190例接受择期心脏手术的患者。
99例接受静脉麻醉的患者在CPB脱机后给予1个最低肺泡有效浓度的七氟醚,持续5分钟(七氟醚组);另外91例患者维持静脉麻醉(对照组)。
在开胸状态下进行测量:CPB前、CPB后及干预后。记录肺机械阻抗和二氧化碳波形图,分析动脉血和中心静脉血样本,并记录肺顺应性。从阻抗谱中获取气道阻力、组织阻尼和弹性。使用线性回归确定二氧化碳波形图III期斜率。根据血气参数计算动脉血氧分压/吸入氧分数比和分流分数。CPB后,七氟醚引起支气管扩张,表现为气道阻力显著下降,组织阻尼和弹性降低表明肺组织粘弹性有较小改善。这些变化表现为二氧化碳波形图III期斜率和分流分数降低,动脉血氧分压/吸入氧分数比和肺顺应性增加。CPB后发生的恶化越严重,七氟醚的改善效果越明显。
七氟醚可减轻CPB引起的支气管收缩、肺组织力学受损和肺内分流增加。这一益处对于CPB引起的严重肺功能恶化患者尤为重要。
