Surfactant preparations for preterm infants with respiratory distress syndrome: past, present, and future.

Korean Journal of Pediatrics Pub Date : 2019-05-01 Epub Date: 2019-02-08 DOI:10.3345/kjp.2018.07185
Ga Won Jeon
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引用次数: 27

Abstract

Following the first successful trial of surfactant replacement therapy for preterm infants with respiratory distress syndrome (RDS) by Fujiwara in 1980, several animal-derived natural surfactants and synthetic surfactants have been developed. Synthetic surfactants were designed to overcome limitations of natural surfactants such as cost, immune reactions, and infections elicited by animal proteins contained in natural surfactants. However, first-generation synthetic surfactants that are protein-free have failed to prove their superiority over natural surfactants because they lack surfactant protein (SP). Lucinactant, a second-generation synthetic surfactant containing the SP-B analog, was better or at least as effective as the natural surfactant, suggesting that lucinactant could act an alternative to natural surfactants. Lucinactant was approved by the U. S. Food and Drug Administration in March 2012 as the fifth surfactant to treat neonatal RDS. CHF5633, a second-generation synthetic surfactant containing SP-B and SP-C analogs, was effective and safe in a human multicenter cohort study for preterm infants. Many comparative studies of natural surfactants used worldwide have reported different efficacies for different preparations. However, these differences are believed to due to site variations, not actual differences. The more important thing than the composition of the surfactant in improving outcome is the timing and mode of administration of the surfactant. Novel synthetic surfactants containing synthetic phospholipid incorporated with SP-B and SP-C analogs will potentially represent alternatives to natural surfactants in the future, while improvement of treatment modalities with less-invasive or noninvasive methods of surfactant administration will be the most important task to be resolved.

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呼吸窘迫综合征早产儿的表面活性剂制剂:过去、现在和未来。
1980年Fujiwara首次成功试验了表面活性剂替代治疗早产儿呼吸窘迫综合征(RDS),随后开发了几种动物源性天然表面活性剂和合成表面活性剂。合成表面活性剂的设计是为了克服天然表面活性剂的局限性,如成本、免疫反应和天然表面活性剂中含有的动物蛋白引起的感染。然而,由于缺乏表面活性剂蛋白(SP),第一代无蛋白合成表面活性剂未能证明其优于天然表面活性剂。含有SP-B类似物的第二代合成表面活性剂Lucinactant,其效果优于天然表面活性剂,至少与天然表面活性剂一样有效,表明Lucinactant可以作为天然表面活性剂的替代品。Lucinactant于2012年3月获得美国食品和药物管理局批准,成为治疗新生儿RDS的第五种表面活性剂。CHF5633是一种含有SP-B和SP-C类似物的第二代合成表面活性剂,在一项针对早产儿的多中心队列研究中是有效和安全的。许多世界范围内使用的天然表面活性剂的比较研究报告了不同制剂的不同功效。然而,这些差异被认为是由于地点的变化,而不是实际的差异。在改善疗效方面,比表面活性剂的组成更重要的是表面活性剂的给药时间和方式。含有合成磷脂与SP-B和SP-C类似物结合的新型合成表面活性剂将有可能成为未来天然表面活性剂的替代品,而改善治疗方式,采用低创或无创的表面活性剂给药方法将是最重要的任务。
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审稿时长
12 weeks
期刊介绍: Korean J Pediatr covers clinical and research works relevant to all aspects of child healthcare. The journal aims to serve pediatricians through the prompt publication of significant advances in any field of pediatrics and to rapidly disseminate recently updated knowledge to the public. Additionally, it will initiate dynamic, international, academic discussions concerning the major topics related to pediatrics. Manuscripts are categorized as review articles, original articles, and case reports. Areas of specific interest include: Growth and development, Neonatology, Pediatric neurology, Pediatric nephrology, Pediatric endocrinology, Pediatric cardiology, Pediatric allergy, Pediatric pulmonology, Pediatric infectious diseases, Pediatric immunology, Pediatric hemato-oncology, Pediatric gastroenterology, Nutrition, Human genetics, Metabolic diseases, Adolescence medicine, General pediatrics.
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