Patterns and etiology of acute and chronic lung injury: insights from experimental evidence.
- Author:
Matthias C HÜTTEN
1
;
Boris W KRAMER
Author Information
1. Department of Pediatrics/Neonatology, University Clinic RWTH Aachen, Germany.
- Publication Type:Journal Article
- MeSH:
Acute Lung Injury;
etiology;
Animals;
Chorioamnionitis;
Chronic Disease;
Female;
Glucocorticoids;
adverse effects;
Humans;
Infant, Newborn;
Inflammation;
complications;
Lung Injury;
etiology;
Pregnancy;
Respiration, Artificial;
adverse effects
- From:
Chinese Journal of Contemporary Pediatrics
2014;16(5):448-459
- CountryChina
- Language:English
-
Abstract:
Adequate pulmonary function is pivotal for preterm infants. Besides being structurally immature, the preterm lung is susceptible to injury resulting from different prenatal conditions and postnatal insults. Lung injury might result in impaired postnatal lung development, contributing to chronic lung disease of prematurity, bronchopulmonary dysplasia (BPD). This review focuses on lung injury mediated by and related to inflammatory changes in the lung. We give an overview on experimental models which have helped to elucidate mechanisms of pulmonary inflammation in prematurity. We describe experimental data linking acute and chronic chorioamnionitis with intrapulmonary inflammation, lung maturation and surfactant production in various animal models. In addition, experimental data has shown that fetal inflammatory response is modulated by the fetus himself. Experimental data has therefore helped to understand differential effects on lung function and lung maturation exerted by maternal administration of potentially anti-inflammatory substances like glucocorticosteroids (GCS). New approaches of modulation of pulmonary inflammation/injury caused by postnatal interventions during resuscitation and mechanical ventilation have been studied in animal models. Postnatal therapeutic interventions with widely used drugs like oxygen, steroids, surfactant, caffeine and vitamin A have been experimentally and mechanistically assessed regarding their effect on pulmonary inflammation and lung injury. Carefully designed experiments will help to elucidate the complex interaction between lung injury, lung inflammation, repair and altered lung development, and will help to establish a link between lung alterations originating in this early period of life and long-term adverse respiratory effects.
