Modeling and remodeling of the lung in neonatal chronic lung disease: implications for therapy.

David G Sweet, Henry L Halliday
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引用次数: 15

Abstract

Neonatal chronic lung disease (CLD) is the major long-term pulmonary complication of preterm birth affecting about 20% of infants who need mechanical ventilation. CLD is the result of abnormal repair processes following inflammatory lung injury that lead to remodeling of the lung. Inflammation may be initiated by a variety of stimuli including mechanical ventilation, oxygen toxicity and infection. The resultant neutrophil chemotaxis and degranulation leads to the release of enzymes such as matrix metalloproteinases that can cause proteolysis of the lung extracellular matrix. Abnormal healing with remodeling leads to poorly compliant lungs with reduced capacity for gas exchange. Drugs can influence the normal process of lung modeling or remodeling. Fetal lung development can be influenced by glucocorticosteroids and inflammation. Both can cause abnormal lung modeling with fewer, larger alveoli and accelerated lung maturation, which confers benefits in terms of reduced morbidity and mortality from respiratory distress syndrome but potentially increases the risk of subsequent lung injury. Antioxidants, such as retinol (vitamin A), administered post-natally may reduce the effects of oxidative stress leading to a modest reduction in CLD but they require repeated intramuscular injections. Postnatal glucocorticosteroid therapy can modify the lung inflammatory response and reduce CLD but it can also have detrimental effects on the developing brain and lung, thereby creating a clinical dilemma for neonatologists. Proteinase inhibitors may be a rational therapy but more research is needed before they can be accepted as a treatment for preterm neonates.'Modeling' is defined as planning or forming that follows a set pattern. The term is used to describe the normal process of lung growth and development that culminates in mature branching alveolar air spaces surrounded by a network of capillaries. Normal lung modeling occurs under a variety of genetic and hormonal influences that can be altered, leading to abnormal patterns of growth. 'Remodeling' is defined as altering the structure of or re-making and, in the case of the lung, is used to describe the abnormal patterns of lung growth that occur after lung injury. Modeling and remodeling of the lungs occur to an extent throughout life but never more rapidly than during the fetal and early neonatal periods, and factors that influence this process may lead to development of neonatal CLD. Some of the factors involved in normal and abnormal lung modeling and inflammation and glucocorticosteroid-induced remodeling in the perinatal period, in the context of neonatal CLD, are reviewed with considerations of how various drugs may influence these processes.

新生儿慢性肺病肺的建模和重塑:对治疗的影响
新生儿慢性肺病(CLD)是早产儿主要的长期肺部并发症,影响约20%需要机械通气的婴儿。CLD是炎性肺损伤后异常修复过程导致肺重塑的结果。炎症可由多种刺激引起,包括机械通气、氧中毒和感染。由此产生的中性粒细胞趋化和脱粒导致酶的释放,如基质金属蛋白酶,可引起肺细胞外基质的蛋白水解。畸形愈合伴重塑导致肺适应性差,气体交换能力降低。药物可影响肺的正常造模或重塑过程。胎儿肺发育可受糖皮质激素和炎症的影响。两者都可导致肺泡变少、变大和肺成熟加速的异常肺模型,这在降低呼吸窘迫综合征的发病率和死亡率方面有好处,但可能增加随后肺损伤的风险。抗氧化剂,如视黄醇(维生素A),出生后给予可能会减少氧化应激的影响,导致CLD的适度减少,但它们需要反复肌内注射。产后糖皮质激素治疗可以改变肺部炎症反应并减少CLD,但它也可能对发育中的大脑和肺部产生有害影响,从而使新生儿学家面临临床困境。蛋白酶抑制剂可能是一种合理的治疗方法,但在将其作为早产儿的治疗方法之前,还需要进行更多的研究。“建模”被定义为遵循固定模式的计划或形成。该术语用于描述肺生长发育的正常过程,最终形成由毛细血管网络包围的成熟分支肺泡空气空间。正常的肺模型在多种基因和激素的影响下发生,这些影响可以改变,导致异常的生长模式。“重塑”被定义为改变结构或再造,在肺的情况下,用于描述肺损伤后肺生长的异常模式。肺部的塑造和重塑在一定程度上贯穿一生,但从未比胎儿和新生儿早期更快,影响这一过程的因素可能导致新生儿CLD的发展。在新生儿CLD的背景下,对围产期正常和异常肺模型、炎症和糖皮质激素诱导的重塑的一些因素进行了综述,并考虑了各种药物如何影响这些过程。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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