Journal
AMERICAN JOURNAL OF RESPIRATORY AND CRITICAL CARE MEDICINE
Volume 173, Issue 2, Pages 204-211Publisher
AMER THORACIC SOC
DOI: 10.1164/rccm.200506-927OC
Keywords
bronchopulmonary dysplasia; chronic lung disease of prematurity; neonatal lung disease
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Funding
- NCRR NIH HHS [P20 RR 18728] Funding Source: Medline
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Rationale: Density-based morphometric studies have demonstrated decreased capillary density in infants with bronchopulmonary dysplasia (BPD) and in BPD-like animal models, leading to the prevailing view that microvascular development is disrupted in BPD. Objective: To perform a comprehensive analysis of the early and late effects of ventilation on pulmonary microvascular growth in preterm infants. Methods: Postmortem lung samples were collected from ventilated preterm infants who died between 23 and 29 wk (short-term ventilated) or between 36 and 39 wk (long-term ventilated) corrected postmenstrual age. Results were compared with age-matched infants or stillborn infants (early and late control subjects). Microvascular growth was studied by anti-platelet endothelial cell adhesion molecule (PECAM)-1 immunohistochemistry, quantitative stereology, analysis of endothelial cell proliferation, and Western blot analysis of pulmonary PECAM-1 protein levels. Measurements: Measurements were made of capillary density, volume of air-exchanging parenchyma, volume of microvascular endothelial cells, Ki67 labeling index of endothelial cells, and PECAM-1/actin protein levels. Main Results: Lungs of long-term ventilated infants showed a significant (more than twofold) increase in volume of air-exchanging parenchyma and a 60% increase in total pulmonary microvascular endothelial volume compared with late control subjects, associated with 60% higher pulmonary PECAM-1 protein levels. The marked expansion of the pulmonary microvasculature in ventilated lungs was, at least partly, attributable to brisk endothelial cell proliferation. The microvasculature of ventilated lungs appeared immature, retaining a saccular architectural pattern. Conclusions: The pulmonary microvasculature of ventilated preterm infants displayed marked angiogenesis, nearly proportionate to the growth of the air-exchanging lung parenchyma. These results challenge the paradigm of microvascular growth arrest as a major pathogenic factor in BPD.
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