机械通气时间延长的 COVID-19 患者与其他病因所致呼吸衰竭患者的通气比值和机械功率。
Ventilatory ratio and mechanical power in prolonged mechanically ventilated COVID-19 patients respiratory failures of other etiologies.
机构信息
Department of Pulmonology and Respiratory Medicine, Lung Center Stuttgart - Schillerhoehe Lung Clinic (affiliated to the Robert-Bosch-Hospital GmbH, Stuttgart), Auerbachstr. 110, 70376 Stuttgart, Germany.
Department of Pulmonology and Respiratory Medicine, Lung Center Stuttgart - Schillerhoehe Lung Clinic (affiliated to the Robert-Bosch-Hospital GmbH, Stuttgart), Stuttgart, Germany.
出版信息
Ther Adv Respir Dis. 2023 Jan-Dec;17:17534666231155744. doi: 10.1177/17534666231155744.
BACKGROUND
Evidence suggests differences in ventilation efficiency and respiratory mechanics between early COVID-19 pneumonia and classical acute respiratory distress syndrome (ARDS), as measured by established ventilatory indexes, such as the ventilatory ratio (VR; a surrogate of the pulmonary dead-space fraction) or mechanical power (MP; affected, e.g., by changes in lung-thorax compliance).
OBJECTIVES
The aim of this study was to evaluate VR and MP in the late stages of the disease when patients are ready to be liberated from the ventilator after recovering from COVID-19 pneumonia compared to respiratory failures of other etiologies.
DESIGN
A retrospective observational cohort study of 249 prolonged mechanically ventilated, tracheotomized patients with and without COVID-19-related respiratory failure.
METHODS
We analyzed each group's VR and MP distributions and trajectories [repeated-measures analysis of variance (ANOVA)] during weaning. Secondary outcomes included weaning failure rates between groups and the ability of VR and MP to predict weaning outcomes (using logistic regression models).
RESULTS
The analysis compared 53 COVID-19 cases with a heterogeneous group of 196 non-COVID-19 subjects. VR and MP decreased across both groups during weaning. COVID-19 patients demonstrated higher values for both indexes throughout weaning: median VR 1.54 1.27 ( < 0.01) and MP 26.0 21.3 Joule/min ( < 0.01) at the start of weaning, and median VR 1.38 1.24 ( < 0.01) and MP 24.2 20.1 Joule/min ( < 0.01) at weaning completion. According to the multivariable analysis, VR was not independently associated with weaning outcomes, and the ability of MP to predict weaning failure or success varied with lung-thorax compliance, with COVID-19 patients demonstrating consistently higher dynamic compliance along with significantly fewer weaning failures (9% 30%, < 0.01).
CONCLUSION
COVID-19 patients differed considerably in ventilation efficiency and respiratory mechanics among prolonged ventilated individuals, demonstrating significantly higher VRs and MP. The differences in MP were linked with higher lung-thorax compliance in COVID-19 patients, possibly contributing to the lower rate of weaning failures observed.
背景
有证据表明,早期 COVID-19 肺炎与经典急性呼吸窘迫综合征(ARDS)之间的通气效率和呼吸力学存在差异,这可以通过已建立的通气指标来衡量,例如通气比(VR;肺死腔分数的替代指标)或机械功率(MP;例如受肺胸廓顺应性变化的影响)。
目的
本研究旨在评估 COVID-19 肺炎患者在恢复期从呼吸机中撤离时的疾病晚期 VR 和 MP,与其他病因引起的呼吸衰竭进行比较。
设计
对 249 例接受长时间机械通气和气管切开的患者进行回顾性观察队列研究,其中包括 COVID-19 相关呼吸衰竭患者和非 COVID-19 相关呼吸衰竭患者。
方法
我们分析了每组在脱机过程中的 VR 和 MP 分布和轨迹(重复测量方差分析(ANOVA))。次要结局包括两组之间的脱机失败率以及 VR 和 MP 预测脱机结局的能力(使用逻辑回归模型)。
结果
该分析比较了 53 例 COVID-19 病例和 196 例非 COVID-19 患者的异质性群体。在脱机过程中,两组患者的 VR 和 MP 均逐渐降低。在整个脱机过程中,COVID-19 患者的这两个指标值均较高:脱机开始时 VR 中位数为 1.54 1.27(<0.01),MP 中位数为 26.0 21.3 焦耳/分钟(<0.01),脱机完成时 VR 中位数为 1.38 1.24(<0.01),MP 中位数为 24.2 20.1 焦耳/分钟(<0.01)。根据多变量分析,VR 与脱机结局无独立相关性,而 MP 预测脱机失败或成功的能力随肺胸廓顺应性而变化,COVID-19 患者的动态顺应性始终较高,且脱机失败率明显较低(9% 30%,<0.01)。
结论
在长时间接受通气的患者中,COVID-19 患者的通气效率和呼吸力学差异很大,表现出明显更高的 VR 和 MP。MP 的差异与 COVID-19 患者的肺胸廓顺应性较高有关,这可能有助于降低观察到的脱机失败率。
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