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胎儿生长受限和出生后高氧双重打击改变支气管肺发育不良早产兔模型的肺结构和功能。

Double hit of foetal growth restriction and postnatal hyperoxia alters lung structure and function in a preterm rabbit model of bronchopulmonary dysplasia.

作者信息

Greyling Marnel, Regin Yannick, Goffinon Emilie, Stretti Francesca, Arai Tomohiro, Aquila Giorgio, Ricci Francesca, Toelen Jaan

机构信息

Woman and Child Division, Department of Development and Regeneration, KU Leuven, Leuven, Flemish Brabant, Belgium.

Neonatology and Pulmonary Rare Disease Unit, Experimental Pharmacology and Translational Science Department, Corporate Pre-Clinical Research and Development, Chiesi Pharmaceuticals, Parma, Emilia-Romagna, Italy.

出版信息

PLoS One. 2025 Aug 26;20(8):e0330717. doi: 10.1371/journal.pone.0330717. eCollection 2025.

DOI:10.1371/journal.pone.0330717
PMID:40857237
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12380354/
Abstract

Bronchopulmonary dysplasia (BPD) is a disease with a multi-factorial pathophysiology; however, current animal models lack complexity. We employed a double-hit model with an antenatal insult of foetal growth restriction paired with milder postnatal hyperoxia exposure. We induced foetal growth restriction (FGR) by injecting N(G)-nitro-L-arginine methyl ester (L-NAME) in the pregnant rabbit, and exposed preterm-born kittens to 70% hyperoxia for 7 days. L-NAME effectively induced FGR, and mortality rates were acceptable. The double-hit group exhibited adverse outcomes, including decreased lung compliance, increased airway resistance, and structural changes such as alveolar simplification and thickened septa. Gene expression analysis in the L-NAME group revealed downregulation of vascular growth factors, suggesting impaired vascular development. In contrast to traditional hyperoxia models, our double-hit approach enables lower hyperoxia exposure, aligning more closely with clinical practice guidelines in neonatology. The findings underscore the importance of antenatal factors in BPD pathophysiology and reinforce the need for refined animal models that accurately reflect the complexities of preterm lung development.

摘要

支气管肺发育不良(BPD)是一种具有多因素病理生理学的疾病;然而,目前的动物模型缺乏复杂性。我们采用了一种双打击模型,即产前胎儿生长受限损伤与出生后轻度高氧暴露相结合。我们通过向怀孕兔子注射N(G)-硝基-L-精氨酸甲酯(L-NAME)诱导胎儿生长受限(FGR),并将早产小猫暴露于70%的高氧环境中7天。L-NAME有效地诱导了FGR,死亡率是可以接受的。双打击组出现了不良后果,包括肺顺应性降低、气道阻力增加以及肺泡简化和间隔增厚等结构变化。L-NAME组的基因表达分析显示血管生长因子下调,提示血管发育受损。与传统的高氧模型相比,我们的双打击方法能够降低高氧暴露水平,更符合新生儿学的临床实践指南。这些发现强调了产前因素在BPD病理生理学中的重要性,并强化了对能够准确反映早产肺发育复杂性的精细动物模型的需求。

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本文引用的文献

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Single, double, and triple-hit strategies to establish a long-term premature rabbit model of bronchopulmonary dysplasia.建立支气管肺发育不良长期早产兔模型的单次、双次和三次打击策略。
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Rates of bronchopulmonary dysplasia in very low birth weight neonates: a systematic review and meta-analysis.极低出生体重儿支气管肺发育不良发生率的系统评价和荟萃分析。
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Biology and therapeutic targeting of vascular endothelial growth factor A.
血管内皮生长因子 A 的生物学和治疗靶向。
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