Postnatal changes in pulmonary mechanics and energetics of infants with respiratory distress syndrome following surfactant treatment.

Biology of the neonate Pub Date : 2005-01-01 Epub Date: 2005-06-01 DOI:10.1159/000084880

Vinod K Bhutani, Frank W Bowen, Emidio M Sivieri

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引用次数: 12

Abstract

Background: Postnatal alterations in pulmonary mechanics, energetics and functional residual capacity (FRC) describe the structural maturation of the preterm respiratory system.

Objective: To evaluate longitudinal changes in pulmonary function in infants with respiratory distress syndrome (RDS) treated with oxygen, positive pressure ventilation and synthetic surfactant (Exosurf).

Methods: Serial pulmonary function tests were performed in surfactant-treated infants [mean +/- SD birth weight (BW) = 1,112 +/- 276 g, gestational age (GA) = 29 +/- 3 weeks] at postnatal ages: <3 days, 1, 2, 3, 4 and 6-8 weeks until term postmenstrual age (PMA). Tidal volume, pulmonary compliance (C(L)), pulmonary resistance (R(T)) and flow-resistive work were analyzed following simultaneous measurements of airflow and transpulmonary pressure signals. Serial FRC measurements were made in a randomly selected group.

Results: Prior to 28 weeks' PMA, C(L) was unchanged irrespective of GA. At age 1 week the likelihood ratio (LR) for bronchopulmonary dysplasia (BPD) based on C(L), R(T) and GA was predicted to be >90% for those with BW <750 g (LR >100) as compared to <10% probability (LR = 0.3) for infants >1,500 g. Significant linear increase in C(L) to PMA was evident >28 weeks' PMA (r = 0.86, p < 0.01) at 0.17 ml/cm H2O/kg/week. By term PMA, mean C(L) was 2.60 +/- 0.07 ml/cm H2O. Improvements in FRC of preterm infants with RDS who recovered occur at a more rapid rate ( approximately 25 ml/kg) compared to those who developed BPD ( approximately 20 ml/kg).

Conclusions: Slow but incremental postnatal pulmonary improvement, minimal <28 weeks' PMA, were comparable for all infants. Along with diminished FRC, these changes reflect persistent deleterious effects of positive pressure ventilation, alveolar hyperoxia and unrecognized pulmonary overdistension.

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表面活性剂治疗后呼吸窘迫综合征婴儿肺力学和能量学的变化。

背景:出生后肺力学、能量学和功能残余容量(FRC)的改变描述了早产儿呼吸系统的结构成熟。目的:探讨呼吸窘迫综合征(RDS)患儿经氧+正压通气+合成表面活性剂(Exosurf)治疗后肺功能的纵向变化。方法:对接受表面活性剂治疗的婴儿(平均+/- SD出生体重(BW) = 1112 +/- 276 g，胎龄(GA) = 29 +/- 3周)在出生后进行了一系列肺功能测试。结果:在28周PMA之前，C(L)与GA无关。在1周龄时，基于C(L)、R(T)和GA的支气管肺发育不良(BPD)的似然比(LR)预测，与体重为1500 g的儿童相比，体重为100 g的儿童发生BPD的似然比(LR) >90%。C(L)对PMA呈显著线性升高(r = 0.86, p < 0.01)， >28周PMA为0.17 ml/cm H2O/kg/周。PMA平均C(L)为2.60 +/- 0.07 ml/cm H2O。与BPD患者(约20 ml/kg)相比，康复的RDS早产儿FRC的改善速度更快(约25 ml/kg)。结论:缓慢但渐进的产后肺部改善，极小

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Biology of the neonate

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