In utero ventilation induces lung parenchymal and vascular alterations in extremely preterm fetal sheep.
Zahrah AzmanKayla VidinopoulosAinsley SomersStuart B HooperValerie A ZahraAlison M ThielRobert GalinskyNhi Thao TranBeth A AllisonGraeme R PolglasePublished in: American journal of physiology. Lung cellular and molecular physiology (2024)
Extremely preterm infants are often exposed to long durations of mechanical ventilation to facilitate gas exchange, resulting in ventilation-induced lung injury (VILI). New lung protective strategies utilizing noninvasive ventilation or low tidal volumes are now common but have not reduced rates of bronchopulmonary dysplasia. We aimed to determine the effect of 24 h of low tidal volume ventilation on the immature lung by ventilating preterm fetal sheep in utero. Preterm fetal sheep at 110 ± 1(SD) days' gestation underwent sterile surgery for instrumentation with a tracheal loop to enable in utero mechanical ventilation (IUV). At 112 ± 1 days' gestation, fetuses received either in utero mechanical ventilation (IUV, n = 10) targeting 3-5 mL/kg for 24 h, or no ventilation (CONT, n = 9). At necropsy, fetal lungs were collected to assess molecular and histological markers of lung inflammation and injury. IUV significantly increased lung mRNA expression of interleukin (IL)-1β, IL-6, IL-8, IL-10 , and tumor necrosis factor ( TNF ) compared with CONT, and increased surfactant protein (SP)-A1 , SP-B , and SP-C mRNA expression compared with CONT. IUV produced modest structural changes to the airways, including reduced parenchymal collagen and myofibroblast density. IUV increased pulmonary arteriole thickness compared with CONT but did not alter overall elastin or collagen content within the vasculature. In utero ventilation of an extremely preterm lung, even at low tidal volumes, induces lung inflammation and injury to the airways and vasculature. In utero ventilation may be an important model to isolate the confounding mechanisms of VILI to develop effective therapies for preterm infants requiring prolonged respiratory support. NEW & NOTEWORTHY Preterm infants often require prolonged respiratory support, but the relative contribution of ventilation to the development of lung injury is difficult to isolate. In utero mechanical ventilation allows for mechanistic investigations into ventilation-induced lung injury without confounding factors associated with sustaining extremely preterm lambs ex utero. Twenty-four hours of in utero ventilation, even at low tidal volumes, increased lung inflammation and surfactant protein expression and produced structural changes to the lung parenchyma and vasculature.
Keyphrases
- mechanical ventilation
- respiratory failure
- preterm infants
- acute respiratory distress syndrome
- low birth weight
- intensive care unit
- gestational age
- extracorporeal membrane oxygenation
- oxidative stress
- preterm birth
- rheumatoid arthritis
- pulmonary hypertension
- carbon dioxide
- minimally invasive
- transcription factor
- endothelial cells
- diabetic rats
- ionic liquid
- coronary artery disease
- drug induced
- percutaneous coronary intervention
- coronary artery bypass