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。

Single, double, and triple-hit strategies to establish a long-term premature rabbit model of bronchopulmonary dysplasia.

作者信息

Catozzi Chiara, Stretti Francesca, Scalera Enrica, Storti Matteo, Modena Angelo, Aquila Giorgio, Villetti Gino, Ferrini Erica, Grandi Andrea, Stellari Franco Fabio, Ravanetti Francesca, Ragionieri Luisa, Ciccimarra Roberta, Zoboli Matteo, Brandenberger Christina, Schulte Henri, Murgia Xabier, Civelli Maurizio, Ricci Francesca

机构信息

Chiesi Farmaceutici, R&D Department, Parma, Italy.

Department of Veterinary Sciences, University of Parma, Parma, Italy.

出版信息

Respir Res. 2025 Jan 24;26(1):35. doi: 10.1186/s12931-024-03053-0.

DOI:10.1186/s12931-024-03053-0

PMID:39856659

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11762538/

Abstract

BACKGROUND

Bronchopulmonary dysplasia (BPD) is a chronic lung condition of premature neonates, yet without an established pharmacological treatment. The BPD rabbit model exposed to 95% oxygen has been used in recent years for drug testing. However, the toxicity of the strong hyperoxic hit precludes a longer-term follow-up due to high mortality after the first week of life. This study aimed to extend the preterm rabbit model to postnatal day (PND) 14 to mimic the evolving phase of BPD and enable the investigation of therapeutic interventions at later and more relevant time points.

METHODS

Preterm rabbit pups delivered on the 28th day of gestation were either exposed to room air or different degrees of hyperoxia (50% and 70% O) for 14 days. Single (immediately after birth) or double (at birth and at PND5) intratracheal lipopolysaccharide (LPS) administrations were also tested in combination with 50% O. Age-matched rabbits delivered vaginally at term were used as controls. Survival, weight gain, lung function, pulmonary artery micro-ultrasound Doppler analysis, lung histology (alveolarization, lung injury score, and design-based stereology), and longitudinal micro-CT imaging were used to compare the outcomes at PND14.

RESULTS

Premature birth itself, without any other BPD hit, was associated with lung function deficits, delayed lung development, and cardiovascular abnormalities. The BPD-like lung phenotype was enhanced by 70% O but not by 50% O hyperoxia. Intratracheal LPS delivered immediately after birth was associated with significantly higher lung injury scores at PND14 and increased tissue damping, a marker of parenchymal air resistance.

CONCLUSION

Several strategies are feasible to extend the preterm rabbit model of BPD to PND14. Preterm birth at the saccular phase itself, even in the absence of other postnatal BPD hits, was associated with lung function deficits, delayed lung development, and cardiovascular abnormalities compared with age-matched term rabbit pups. Enhanced BPD-like phenotypes can be further achieved by continued exposure to moderate hyperoxia (70% O) and the intratracheal administration of LPS.

摘要

背景

支气管肺发育不良（BPD）是一种早产儿慢性肺部疾病，但尚无既定的药物治疗方法。近年来，暴露于95%氧气环境下的BPD兔模型已被用于药物测试。然而，由于出生后第一周死亡率高，强烈的高氧打击毒性使得无法进行长期随访。本研究旨在将早产兔模型延长至出生后第14天（PND14），以模拟BPD的演变阶段，并能够在更晚且更相关的时间点研究治疗干预措施。

方法

在妊娠第28天出生的早产兔幼崽，要么暴露于室内空气，要么暴露于不同程度的高氧环境（50%和70%氧气）14天。还测试了单次（出生后立即）或两次（出生时和PND5时）气管内注射脂多糖（LPS）并联合50%氧气环境。足月经阴道分娩的年龄匹配的兔子用作对照。通过生存、体重增加、肺功能、肺动脉微超声多普勒分析、肺组织学（肺泡化、肺损伤评分和基于设计的体视学）以及纵向微型计算机断层扫描成像来比较PND14时的结果。

结果

早产本身，在没有任何其他BPD打击的情况下，与肺功能缺陷、肺发育延迟和心血管异常有关。70%氧气的高氧环境增强了类似BPD的肺表型，但50%氧气的高氧环境未起到增强作用。出生后立即气管内注射LPS与PND14时显著更高的肺损伤评分以及组织阻尼增加有关，组织阻尼是实质空气阻力的一个指标。

结论

有几种策略可将早产兔BPD模型延长至PND14。与年龄匹配的足月兔幼崽相比，即使在没有其他出生后BPD打击的情况下，囊泡期的早产本身也与肺功能缺陷、肺发育延迟和心血管异常有关。持续暴露于中度高氧环境（70%氧气）和气管内注射LPS可进一步增强类似BPD的表型。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/105d/11762538/60021a065285/12931_2024_3053_Fig1_HTML.jpg

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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。

Single, double, and triple-hit strategies to establish a long-term premature rabbit model of bronchopulmonary dysplasia.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

背景

方法

结果

结论

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