Influence of protective lung ventilation on arterial-to-end tidal carbon dioxide gradient during one lung ventilation: A prospective observational study
{"title":"Influence of protective lung ventilation on arterial-to-end tidal carbon dioxide gradient during one lung ventilation: A prospective observational study","authors":"Shruthi Pendyala, A. Date","doi":"10.4103/arwy.arwy_21_22","DOIUrl":null,"url":null,"abstract":"Background: One lung ventilation (OLV) results in a ventilation-perfusion (V/Q) mismatch. Protective lung ventilation (PLV) reduces postoperative pulmonary complications following OLV. However, PLV predisposes to areas of atelectasis in the ventilated lung and worsens the V/Q mismatch. Aim of Study: To evaluate the gradient between arterial carbon dioxide tension (PaCO2) and partial pressure of end-tidal carbon dioxide gas (ETCO2) during OLV using PLV. The second objective was to see if a high gradient could be predicted based on preoperative pulmonary function tests (PFTs), American Society of Anesthesiologists Physical Status (ASA-PS) or intraoperative haemodynamic changes. Patients and Methods: The PaCO2 and ETCO2 during two lung ventilation (TLV) and OLV were noted with patient in the lateral position. The PaCO2-ETCO2 gradients during TLV and OLV were calculated. The mean values of PaCO2, ETCO2 and PaCO2-ETCO2 gradient were compared for OLV and TLV. For gradients above 8 mm Hg, PFT, ASA-PS grade and blood pressure were assessed to identify any clinical association. Results: Sixty patients were enrolled in the study. The mean values of PaCO2 were 38.17 and 44.02 mm Hg during TLV and OLV respectively. The mean values of ETCO2 were 31.31 and 34.53 mm Hg during TLV and OLV respectively. The mean PaCO2-ETCO2 gradient was 6.74 and 9.71 mm Hg during TLV and OLV respectively. These values were significantly lower during TLV than OLV. Conclusion: ETCO2 does not correspond with PaCO2 during OLV using PLV. It is not possible to predict which patients will show a higher PaCO2-ETCO2 gradient. This study could not find any clinical association between the preoperative PFT, ASA-PS grade or intraoperative haemodynamics when PaCO2-ETCO2 gradient was greater than 8 mm Hg.","PeriodicalId":7848,"journal":{"name":"Airway Pharmacology and Treatment","volume":"24 1","pages":"103 - 108"},"PeriodicalIF":0.0000,"publicationDate":"2022-09-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Airway Pharmacology and Treatment","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.4103/arwy.arwy_21_22","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}
引用次数: 0
Abstract
Background: One lung ventilation (OLV) results in a ventilation-perfusion (V/Q) mismatch. Protective lung ventilation (PLV) reduces postoperative pulmonary complications following OLV. However, PLV predisposes to areas of atelectasis in the ventilated lung and worsens the V/Q mismatch. Aim of Study: To evaluate the gradient between arterial carbon dioxide tension (PaCO2) and partial pressure of end-tidal carbon dioxide gas (ETCO2) during OLV using PLV. The second objective was to see if a high gradient could be predicted based on preoperative pulmonary function tests (PFTs), American Society of Anesthesiologists Physical Status (ASA-PS) or intraoperative haemodynamic changes. Patients and Methods: The PaCO2 and ETCO2 during two lung ventilation (TLV) and OLV were noted with patient in the lateral position. The PaCO2-ETCO2 gradients during TLV and OLV were calculated. The mean values of PaCO2, ETCO2 and PaCO2-ETCO2 gradient were compared for OLV and TLV. For gradients above 8 mm Hg, PFT, ASA-PS grade and blood pressure were assessed to identify any clinical association. Results: Sixty patients were enrolled in the study. The mean values of PaCO2 were 38.17 and 44.02 mm Hg during TLV and OLV respectively. The mean values of ETCO2 were 31.31 and 34.53 mm Hg during TLV and OLV respectively. The mean PaCO2-ETCO2 gradient was 6.74 and 9.71 mm Hg during TLV and OLV respectively. These values were significantly lower during TLV than OLV. Conclusion: ETCO2 does not correspond with PaCO2 during OLV using PLV. It is not possible to predict which patients will show a higher PaCO2-ETCO2 gradient. This study could not find any clinical association between the preoperative PFT, ASA-PS grade or intraoperative haemodynamics when PaCO2-ETCO2 gradient was greater than 8 mm Hg.
背景:单肺通气(OLV)导致通气-灌注(V/Q)不匹配。保护性肺通气(PLV)可减少OLV术后肺部并发症。然而,PLV易在通气肺中出现肺不张区域,并使V/Q不匹配恶化。研究目的:用PLV评价OLV时动脉二氧化碳张力(PaCO2)与潮末二氧化碳分压(ETCO2)之间的梯度。第二个目的是观察是否可以根据术前肺功能测试(pft)、美国麻醉医师协会生理状态(ASA-PS)或术中血流动力学变化预测高梯度。患者与方法:采用侧卧位观察两肺通气(TLV)和OLV时PaCO2和ETCO2的变化。计算TLV和OLV期间PaCO2-ETCO2梯度。比较OLV和TLV的PaCO2、ETCO2和PaCO2-ETCO2梯度的平均值。对于高于8毫米汞柱的梯度,评估PFT、ASA-PS等级和血压以确定任何临床关联。结果:60例患者入组研究。TLV和OLV期间PaCO2平均值分别为38.17和44.02 mm Hg。TLV和OLV期间ETCO2均值分别为31.31和34.53 mm Hg。TLV和OLV期间PaCO2-ETCO2平均梯度分别为6.74和9.71 mm Hg。这些值在TLV期间明显低于OLV。结论:使用PLV进行OLV时,ETCO2与PaCO2不对应。无法预测哪些患者PaCO2-ETCO2梯度较高。本研究未发现PaCO2-ETCO2梯度大于8mmhg时术前PFT、ASA-PS分级或术中血流动力学之间有任何临床关联。