在离体灌注兔肺模型中，平均气道压和潮气量对机械通气所致肺损伤的影响。

Effects of mean airway pressure and tidal excursion on lung injury induced by mechanical ventilation in an isolated perfused rabbit lung model.

作者信息

Broccard A F, Hotchkiss J R, Suzuki S, Olson D, Marini J J

机构信息

Division of Pulmonary and Critical Care Medicine, University of Minnesota, Minneapolis, USA.

出版信息

Crit Care Med. 1999 Aug;27(8):1533-41. doi: 10.1097/00003246-199908000-00022.

DOI:10.1097/00003246-199908000-00022

PMID:10470761

Abstract

OBJECTIVE

To study the relative contributions of mean airway pressure (mPaw) and tidal excursion (V(T)) to ventilator-induced lung injury under constant perfusion conditions.

DESIGN

Prospective, randomized study.

SETTING

Experimental animal laboratory.

SUBJECTS

Fifteen sets of isolated rabbit lungs.

INTERVENTIONS

Rabbit lungs were perfused (constant flow, 500 mL/min; capillary pressure, 10 mm Hg) and randomized to be ventilated at identical peak transpulmonary pressure (pressure control ventilation [30 cm H2O and frequency of 20/min]) with three different ventilatory patterns that differed from each other by either mPaw or V(T): group A (low mPaw [13.4+/-0.2 cm H2O]/large V(T) [55+/-8 mL], n = 5); group B (high mPaw [21.2+/-0.2 cm H2O]/small V(T) [18+/-1 mL], n = 5); and group C (high mPaw [21.8+/-0.5 cm H2O]/large V(T) [53+/-5 mL], n = 5).

MEASUREMENTS AND MAIN RESULTS

Continuous weight gain (edema formation), change in ultrafiltration coefficient (deltaKf, vascular permeability index), and histology (lung hemorrhage) were examined. In group A, deltaKf (0.08+/-0.08 g/min/cm H2O/100 g) was less than in group B (0.28+/-0.19 g/min/cm H2O/100 g) or group C (0.41+/-0.29 g/min/cm H2O/100 g) (p = .05). Group A experienced significantly less hemorrhage (histologic score, 5.4+/-2.2) than groups B (10.3+/-2.1) and C (11.1+/-3.0) (p < .05). A similar trend was observed for weight gain. In contrast to tidal excursion, mPaw was found to be a significant factor for lung hemorrhage and increased Kf (two-way analysis of variance; p < .05). Weight gain (r2 = .54, p = .04) and lung hemorrhage (r2 = .65, p = .01) correlated with the mean pulmonary artery pressure changes that resulted from the implementation of the ventilatory strategies. The difference between the changes in mPaw and mean pulmonary artery pressure linearly predicted deltaKf (p = .005 and .05, respectively, r2 = 0.73).

CONCLUSIONS

Under these experimental conditions, mPaw contributes more than tidal excursion to lung hemorrhage and permeability alterations induced by mechanical ventilation.

摘要

目的

研究在恒定灌注条件下平均气道压（mPaw）和潮气量（V(T)）对呼吸机诱导性肺损伤的相对作用。

设计

前瞻性随机研究。

设置

实验动物实验室。

对象

15组离体兔肺。

干预措施

兔肺进行灌注（恒定流量，500毫升/分钟；毛细血管压力，10毫米汞柱），并随机采用三种不同的通气模式在相同的跨肺压峰值（压力控制通气[30厘米水柱，频率20次/分钟]）下进行通气，这三种通气模式在mPaw或V(T)方面彼此不同：A组（低mPaw[13.4±0.2厘米水柱]/大潮气量[55±8毫升]，n = 5）；B组（高mPaw[21.2±0.2厘米水柱]/小潮气量[18±1毫升]，n = 5）；C组（高mPaw[21.8±0.5厘米水柱]/大潮气量[53±5毫升]，n = 5）。

测量指标及主要结果

检测持续体重增加（水肿形成）、超滤系数变化（δKf，血管通透性指数）和组织学（肺出血）情况。A组的δKf（0.08±0.08克/分钟/厘米水柱/100克）低于B组（0.28±0.19克/分钟/厘米水柱/100克）或C组（0.41±0.29克/分钟/厘米水柱/100克）（p = 0.05）。A组的肺出血明显少于B组（组织学评分，5.4±2.2）和C组（11.1±3.0）（p < 0.05）。体重增加也观察到类似趋势。与潮气量相比，mPaw被发现是肺出血和Kf增加的一个重要因素（双向方差分析；p < 0.05）。体重增加（r2 = 0.54，p = 0.04）和肺出血（r2 = 0.65，p = 0.01）与实施通气策略后平均肺动脉压的变化相关。mPaw变化与平均肺动脉压变化之间的差异可线性预测δKf（分别为p = 0.005和0.05，r2 = 0.73）。