通过连续潮气末肺容积测量评估急性呼吸窘迫综合征的募集至膨胀比。
Recruitment-to-inflation Ratio Assessed through Sequential End-expiratory Lung Volume Measurement in Acute Respiratory Distress Syndrome.
机构信息
Department of Anesthesiology and Intensive Care Medicine, Catholic University of the Sacred Heart, Rome, Italy; Anesthesia, Emergency and Intensive Care Medicine, Fondazione Policlinico Universitario A. Gemelli IRCCS, Rome, Italy.
Department of Medical, Oral and Biotechnological Sciences, School of Medicine and Health Sciences, Section of Anesthesia, Analgesia, Perioperative and Intensive Care, SS, Annunziata Hospital, Gabriele d'Annunzio University of Chieti-Pescara, Chieti, Italy.
出版信息
Anesthesiology. 2023 Dec 1;139(6):801-814. doi: 10.1097/ALN.0000000000004716.
BACKGROUND
Positive end-expiratory pressure (PEEP) benefits in acute respiratory distress syndrome are driven by lung dynamic strain reduction. This depends on the variable extent of alveolar recruitment. The recruitment-to-inflation ratio estimates recruitability across a 10-cm H2O PEEP range through a simplified maneuver. Whether recruitability is uniform or not across this range is unknown. The hypotheses of this study are that the recruitment-to-inflation ratio represents an accurate estimate of PEEP-induced changes in dynamic strain, but may show nonuniform behavior across the conventionally tested PEEP range (15 to 5 cm H2O).
METHODS
Twenty patients with moderate-to-severe COVID-19 acute respiratory distress syndrome underwent a decremental PEEP trial (PEEP 15 to 13 to 10 to 8 to 5 cm H2O). Respiratory mechanics and end-expiratory lung volume by nitrogen dilution were measured the end of each step. Gas exchange, recruited volume, recruitment-to-inflation ratio, and changes in dynamic, static, and total strain were computed between 15 and 5 cm H2O (global recruitment-to-inflation ratio) and within narrower PEEP ranges (granular recruitment-to-inflation ratio).
RESULTS
Between 15 and 5 cm H2O, median [interquartile range] global recruitment-to-inflation ratio was 1.27 [0.40 to 1.69] and displayed a linear correlation with PEEP-induced dynamic strain reduction (r = -0.94; P < 0.001). Intraindividual recruitment-to-inflation ratio variability within the narrower ranges was high (85% [70 to 109]). The relationship between granular recruitment-to-inflation ratio and PEEP was mathematically described by a nonlinear, quadratic equation (R2 = 0.96). Granular recruitment-to-inflation ratio across the narrower PEEP ranges itself had a linear correlation with PEEP-induced reduction in dynamic strain (r = -0.89; P < 0.001).
CONCLUSIONS
Both global and granular recruitment-to-inflation ratio accurately estimate PEEP-induced changes in lung dynamic strain. However, the effect of 10 cm H2O of PEEP on lung strain may be nonuniform. Granular recruitment-to-inflation ratio assessment within narrower PEEP ranges guided by end-expiratory lung volume measurement may aid more precise PEEP selection, especially when the recruitment-to-inflation ratio obtained with the simplified maneuver between PEEP 15 and 5 cm H2O yields intermediate values that are difficult to interpret for a proper choice between a high and low PEEP strategy.
背景
呼气末正压(PEEP)对急性呼吸窘迫综合征的益处是通过降低肺动态应变来实现的。这取决于肺泡复张的程度。通过简化的操作,复张-充气比估计在 10cmH2O PEEP 范围内的可复张性。在这个范围内是否存在可复张性的均匀性尚不清楚。本研究的假设是,复张-充气比是对 PEEP 诱导的动态应变变化的准确估计,但在传统测试的 PEEP 范围内(15 至 5cmH2O)可能表现出非均匀行为。
方法
20 例中度至重度 COVID-19 急性呼吸窘迫综合征患者接受了递减 PEEP 试验(PEEP 从 15 逐渐降至 13、10、8 和 5cmH2O)。在每一步结束时,通过氮气稀释测量呼吸力学和呼气末肺容积。在 15 至 5cmH2O(整体复张-充气比)和更窄的 PEEP 范围内(颗粒复张-充气比)计算气体交换、募集容积、复张-充气比以及动态、静态和总应变的变化。
结果
在 15 至 5cmH2O 之间,中位数[四分位数范围]整体复张-充气比为 1.27[0.40 至 1.69],与 PEEP 诱导的动态应变降低呈线性相关(r=-0.94;P<0.001)。在更窄的范围内,个体内复张-充气比的变异性很高(85%[70 至 109])。颗粒复张-充气比与 PEEP 的关系通过非线性二次方程(R2=0.96)来描述。在更窄的 PEEP 范围内,颗粒复张-充气比与 PEEP 诱导的动态应变降低呈线性相关(r=-0.89;P<0.001)。
结论
整体和颗粒复张-充气比都能准确估计 PEEP 诱导的肺动态应变变化。然而,10cmH2O 的 PEEP 对肺应变的影响可能不均匀。通过呼气末肺容积测量指导在更窄的 PEEP 范围内进行颗粒复张-充气比评估,可能有助于更精确的 PEEP 选择,尤其是在简化操作中在 15 至 5cmH2O 之间获得的复张-充气比产生难以解释的中间值,难以在高和低 PEEP 策略之间做出正确选择时。
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