Lewis J W, Serwin J P, Gabriel F S, Bastanfar M, Jacobsen G
Department of Anesthesia, Henry Ford Hospital, Detroit, MI 48202.
J Cardiothorac Vasc Anesth. 1992 Dec;6(6):705-10. doi: 10.1016/1053-0770(92)90056-d.
To determine the utility of one-lung ventilation (OLV) in a variety of noncardiac thoracic surgical procedures, 200 patients were studied to document the ease of double-lumen tube (DLT) placement, associated complications, intraoperative respiratory changes, and methods for managing hypoxic events. Most tubes could be placed, repositioned when necessary, and secured within 12 minutes. By defining tube position with fiberoptic bronchoscopy, auscultatory assessment of placement was found to be incorrect in 38.0% of patients. The tip occluded the respective upper lobe orifice in 40.5% of this subgroup, the endobronchial cuff was at or above the carina in 38.7%, and in the wrong mainstem bronchus in 20.8%. During OLV, PaO2 initially fell to approximately 200 mmHg in most patients but gradually rose during the balance of the operation. Hypoxia (PaO2 less than 80 mmHg) during OLV developed in 28.5% of patients. Preoperative spirometry and arterial blood gases had no predictive value for this complication. Pulse oximetry values between 95% and 100% reliably reflected systemic arterial oxygen saturation. Hypoxia occurring during OLV was successfully reversed in 40.0% of instances by positive end-expiratory pressure (PEEP) to the ventilated lung. The addition of continuous positive airway pressure (CPAP) to the nonventilated lung reversed persistent hypoxia in virtually all cases. There was no difference in oxygenation, carbon dioxide elimination, airway pressures, or intraoperative complications noted between right and left double-lumen tubes. In conclusion, a DLT for OLV can expeditiously and safely be placed. Because auscultation for tube position is unreliable, bronchoscopic assessment of final position should be performed in every instance. Hypoxia during OLV can be detected reliably by pulse oximetry.(ABSTRACT TRUNCATED AT 250 WORDS)
为确定单肺通气(OLV)在各种非心脏胸外科手术中的效用,对200例患者进行了研究,以记录双腔管(DLT)置入的难易程度、相关并发症、术中呼吸变化以及处理低氧事件的方法。大多数导管可在12分钟内置入、必要时重新定位并固定。通过纤维支气管镜确定导管位置后发现,38.0%的患者听诊评估的位置不正确。在该亚组中,40.5%的患者导管尖端堵塞了相应的上叶开口,38.7%的患者支气管内套囊位于隆突或其上方,20.8%的患者导管位于错误的主支气管。在OLV期间,大多数患者的动脉血氧分压(PaO2)最初降至约200 mmHg,但在手术剩余时间内逐渐上升。28.5%的患者在OLV期间出现低氧(PaO2低于80 mmHg)。术前肺活量测定和动脉血气分析对该并发症无预测价值。脉搏血氧饱和度值在95%至100%之间可可靠反映体循环动脉血氧饱和度。在OLV期间发生的低氧情况,40.0%的病例通过对通气肺施加呼气末正压(PEEP)成功逆转。对非通气肺加用持续气道正压(CPAP)几乎可逆转所有持续性低氧情况。左右双腔管在氧合、二氧化碳清除、气道压力或术中并发症方面无差异。总之,用于OLV的DLT可快速、安全地置入。由于听诊判断导管位置不可靠,每次都应进行支气管镜检查以确定最终位置。OLV期间的低氧情况可通过脉搏血氧饱和度仪可靠检测到。(摘要截断于250字)
