一氧化碳肺弥散能力低的患者在单肺通气期间,吸气与呼气比例为1:1对呼吸力学和氧合的影响:一项交叉研究。
Effects of a 1:1 inspiratory to expiratory ratio on respiratory mechanics and oxygenation during one-lung ventilation in patients with low diffusion capacity of lung for carbon monoxide: a crossover study.
作者信息
Lee Kyuho, Oh Young Jun, Choi Yong Seon, Kim Shin Hyung
机构信息
Department of Anesthesiology and Pain Medicine, Anesthesia and Pain Research Institute, Yonsei University College of Medicine, Seoul, Republic of Korea.
Department of Anesthesiology and Pain Medicine, Anesthesia and Pain Research Institute, Yonsei University College of Medicine, Seoul, Republic of Korea.
出版信息
J Clin Anesth. 2015 Sep;27(6):445-50. doi: 10.1016/j.jclinane.2015.06.012. Epub 2015 Aug 9.
STUDY OBJECTIVE
To investigate the effects of a 1:1 inspiratory-to-expiratory (I:E) ventilation ratio on oxygenation and respiratory mechanics during one-lung ventilation (OLV) in patients with low diffusion capacity of lung for carbon monoxide (DLCO).
DESIGN
Prospective, randomized, crossover study.
SETTING
Operating room, university hospital.
PATIENTS
Twenty-six patients with a preoperative DLCO less than 80% who were scheduled for lung lobectomy requiring OLV under general anesthesia.
INTERVENTIONS
In the first group (n = 13), OLV was begun with a 1:1 I:E ratio, which was switched to a 1:2 I:E ratio after 30 minutes. In the second group (n = 13), the modes of ventilation were performed in the opposite order. Pressure-controlled ventilation with 5 cm H2O of positive end-expiratory pressure and a tidal volume of 5 to 8 mL/kg was applied during OLV.
MEASUREMENTS
Arterial and central venous blood gas analyses were recorded and used to calculate intrapulmonary shunt fraction and physiologic dead space. These measurements were taken at 4 time points: 10 minutes after two-lung ventilation in the lateral decubitus position, 30 minutes after initiation of OLV, 30 minutes after switching the I:E ratio, and 10 minutes after two-lung ventilation was resumed.
MAIN RESULTS
There was no difference in arterial oxygen tension during OLV between the 2 groups (P = .429). Arterial carbon dioxide tension and peak airway pressure were lower in the 1:1 group than in the 1:2 group (P = .003; P = .008). Physiologic dead space was also decreased in the 1:1 I:E ratio group (P = .003). Mean airway pressure and dynamic compliance were higher in the 1:1 group (P = .003; P = .007).
CONCLUSIONS
Pressure-controlled ventilation with a 1:1 I:E ventilation ratio did not improve oxygenation in patients with low DLCO during OLV compared with a 1:2 I:E ventilation ratio. However, it did provide benefits in terms of respiratory mechanics and increased the efficiency of alveolar ventilation during OLV.
研究目的
探讨在一氧化碳肺弥散功能(DLCO)降低的患者单肺通气(OLV)期间,1:1吸呼比(I:E)通气对氧合及呼吸力学的影响。
设计
前瞻性、随机、交叉研究。
地点
大学医院手术室。
患者
26例术前DLCO低于80%、计划在全身麻醉下行肺叶切除术且需要OLV的患者。
干预措施
第一组(n = 13),OLV开始时采用1:1的I:E比,30分钟后切换为1:2的I:E比。第二组(n = 13),通气模式按相反顺序进行。OLV期间采用压力控制通气,呼气末正压为5 cm H₂O,潮气量为5至8 mL/kg。
测量指标
记录动脉血和中心静脉血气分析结果,并用于计算肺内分流分数和生理死腔。在4个时间点进行这些测量:侧卧位双肺通气10分钟后、OLV开始30分钟后、切换I:E比30分钟后以及恢复双肺通气10分钟后。
主要结果
两组在OLV期间动脉血氧分压无差异(P = 0.429)。1:1组的动脉血二氧化碳分压和气道峰压低于1:2组(P = 0.003;P = 0.008)。1:1 I:E比组的生理死腔也减少(P = 0.003)。1:1组的平均气道压和动态顺应性更高(P = 0.003;P = 0.007)。
结论
与1:2 I:E通气比相比,在DLCO降低的患者OLV期间,采用1:1 I:E通气比的压力控制通气并未改善氧合。然而,它在呼吸力学方面有优势,并提高了OLV期间肺泡通气的效率。
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