在高氧诱导的肺损伤模型中,Nintedanib可保护肺生长并预防肺动脉高压。

IF 3.1 3区 医学 Q1 PEDIATRICS Pediatric Research Pub Date : 2024-10-11 DOI:10.1038/s41390-024-03562-0
Kathy L Ding, Caroline Smith, Gregory Seedorf, Steven H Abman
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引用次数: 0

摘要

背景:支气管肺发育不良(BPD)是一种与早产有关的慢性肺部疾病,其特点是肺泡和血管生长不良、间质纤维化和肺动脉高压(PH)。早产儿肺发育不全(BPD)的病理生理学虽然起源于多种因素,但部分原因是高氧诱导的产后损伤导致肺纤维化。最近的研究表明,抗纤维化药物(包括 Nintedanib(NTD))可以保护特发性肺纤维化成人患者的肺功能。然而,NTD是一种非特异性酪氨酸激酶受体抑制剂,可能会对发育中的肺部产生不良影响,NTD治疗是否能预防或恶化BPD和PH的风险尚不清楚:我们假设,在高氧诱导大鼠BPD的实验模型中,NTD治疗将保护肺的生长和功能,并预防PH:新生大鼠暴露于高氧(90%)或室内空气(RA)条件下,从出生后第1天开始,每天腹腔注射(IP)NTD或生理盐水(对照组)(1毫克/千克),连续14天。第 14 天,在采集肺和心脏组织之前测量肺力学。使用 flexiVent 系统测量肺力学,包括总呼吸阻力和顺应性。对肺组织的径向肺泡数(RAC)、平均线截距(MLI)、肺血管密度(PVD)和肺血管壁厚度(PVWT)进行了评估。右心室肥厚(RVH)通过使用富尔顿指数(右心室与左心室加室间隔的比率)的心脏重量进行量化:结果:与 RA 对照组相比,高氧暴露使 RAC 减少了 64%(p 结论:NTD 治疗可保护肺功能:我们发现,NTD 治疗可保护肺泡和血管生长,改善肺功能,并降低婴儿大鼠实验性 BPD 的 RVH,而对对照组动物无明显不良影响。我们推测,尽管高剂量 NTD 可能有害,但它可能为预防 BPD 和 PH 提供了一种新的治疗策略:抗纤维化疗法可能是治疗或预防 BPD 的一种新型治疗策略。高剂量抗纤维化药物可能会对发育中的肺部产生不良影响,而低剂量抗纤维化药物则可治疗或预防 BPD。关于在发育中的肺部使用抗纤维化药物的临床前和临床数据非常少。抗纤维化疗法的剂量时机和持续时间可能是治疗新生儿肺部疾病的关键。目前,还缺乏预防和治疗 BPD 的策略,尤其是在肺纤维化的情况下,因此这项研究具有重要的临床应用价值。
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Nintedanib preserves lung growth and prevents pulmonary hypertension in a hyperoxia-induced lung injury model.

Background: Bronchopulmonary dysplasia (BPD), the chronic lung disease associated with prematurity, is characterized by poor alveolar and vascular growth, interstitial fibrosis, and pulmonary hypertension (PH). Although multifactorial in origin, the pathophysiology of BPD is partly attributed to hyperoxia-induced postnatal injury, resulting in lung fibrosis. Recent work has shown that anti-fibrotic agents, including Nintedanib (NTD), can preserve lung function in adults with idiopathic pulmonary fibrosis. However, NTD is a non-specific tyrosine kinase receptor inhibitor that can potentially have adverse effects on the developing lung, and whether NTD treatment can prevent or worsen risk for BPD and PH is unknown.

Hypothesis: We hypothesize that NTD treatment will preserve lung growth and function and prevent PH in an experimental model of hyperoxia-induced BPD in rats.

Methods: Newborn rats were exposed to either hyperoxia (90%) or room air (RA) conditions and received daily treatment of NTD or saline (control) by intraperitoneal (IP) injections (1 mg/kg) for 14 days, beginning on postnatal day 1. At day 14, lung mechanics were measured prior to harvesting lung and cardiac tissue. Lung mechanics, including total respiratory resistance and compliance, were measured using a flexiVent system. Lung tissue was evaluated for radial alveolar counts (RAC), mean linear intercept (MLI), pulmonary vessel density (PVD), and pulmonary vessel wall thickness (PVWT). Right ventricular hypertrophy (RVH) was quantified with cardiac weights using Fulton's index (ratio of right ventricle to the left ventricle plus septum).

Results: When compared with RA controls, hyperoxia exposure reduced RAC by 64% (p < 0.01) and PVD by 65% (p < 0.01) and increased MLI by 108% (p < 0.01) and RVH by 118% (p < 0.01). Hyperoxia increased total respiratory resistance by 94% and reduced lung compliance by 75% (p < 0.01 for each). NTD administration restored RAC, MLI, RVH, PVWT and total respiratory resistance to control values and improved PVD and total lung compliance in the hyperoxia-exposed rats. NTD treatment of control animals did not have adverse effects on lung structure or function at 1 mg/kg. When administered at higher doses of 50 mg/kg, NTD significantly reduced alveolar growth in RA controls, suggesting dose-related effects on normal lung structure.

Conclusions: We found that NTD treatment preserved lung alveolar and vascular growth, improved lung function, and reduced RVH in experimental BPD in infant rats without apparent adverse effects in control animals. We speculate that although potentially harmful at high doses, NTD may provide a novel therapeutic strategy for prevention of BPD and PH.

Impact: Anti-fibrotic therapies may be a novel therapeutic strategy for the treatment or prevention of BPD. High-dose anti-fibrotics may have adverse effects on developing lungs, while low-dose anti-fibrotics may treat or prevent BPD. There is very little preclinical and clinical data on the use of anti-fibrotics in the developing lung. Dose timing and duration of anti-fibrotic therapies may be critical for the treatment of neonatal lung disease. Currently, strategies for the prevention and treatment of BPD are lacking, especially in the context of lung fibrosis, so this research has major clinical applicability.

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来源期刊
Pediatric Research
Pediatric Research 医学-小儿科
CiteScore
6.80
自引率
5.60%
发文量
473
审稿时长
3-8 weeks
期刊介绍: Pediatric Research publishes original papers, invited reviews, and commentaries on the etiologies of children''s diseases and disorders of development, extending from molecular biology to epidemiology. Use of model organisms and in vitro techniques relevant to developmental biology and medicine are acceptable, as are translational human studies
期刊最新文献
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