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Chronic Hypoxia in an EXTrauterine Environment for Neonatal Development Impairs Lung Development. | LitMetric

AI Article Synopsis

  • * In this study, preterm fetal lambs were subjected to reduced oxygen levels using the EXTEND model, resulting in noticeable growth restrictions and changes in lung structure compared to those with normal oxygen levels.
  • * Key findings included fewer blood vessels, increased muscularization in peripheral vessels, enlarged airspaces, and a drop in specific lung cell types and proteins crucial for lung function, indicating that fetal hypoxia mainly affects airway and surfactant production development.

Article Abstract

Severe fetal hypoxia poses a significant risk to lung development resulting in severe postnatal complications. Existing chronic hypoxia animal models lack the ability to achieve pathologically reduced fetal oxygen without compromising animal development, placental blood flow, or maternal health. Using an established model of isolated chronic hypoxia involving the Extrauterine Environment for Neonatal Development (EXTEND), we are able to investigate the direct impact of fetal hypoxia on lung development. Oxygen delivery to preterm fetal lambs (105-110 days GA) delivered by cesarean section was reduced, and animals were supported on EXTEND through the canalicular or saccular stage of lung development. Fetal lambs in hypoxic conditions showed significant growth restriction compared to their normoxic counterparts. We also observed modest aberrant vascular remodeling in the saccular group after hypoxic conditions with decreased macrovessel numbers, microvascular endothelial cell numbers, and increased peripheral vessel muscularization. In addition, fetal hypoxia resulted in enlarged distal airspaces and decreased septal wall volume. Moreover, there was a reduction in mature SFTPB and processed SFTPC protein expression concomitant with a decrease in AT2 cell number. These findings demonstrate that maternally-independent fetal hypoxia predominantly impacts distal airway development, AT2 cell number, and surfactant production with mild effects on the vasculature.

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Source
http://dx.doi.org/10.1165/rcmb.2024-0012OCDOI Listing

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