Bronchoscopic interventions with surfactant and recombinant human deoxyribonuclease for acute respiratory distress syndrome–type respiratory syncytial virus–pneumonia in moderately preterm infants: Case series

  • Krause M
  • Ankermann T
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Abstract

Atelectases, over-inflation of ventilated regions of the lung, and consecutive pneumothoraces are life-threatening conditions in mechanically ventilated infants with acute respiratory distress syndrome–type respiratory syncytial virus–pneumonia. The accumulation of viscous secretions secondary to impaired mucociliary clearance in the more proximal parts of the bronchial tree is the prerequisite for atelectases and also prevents the delivery of inhaled medications to the more distal parts of the lung. Herein, we describe four moderately premature infants with respiratory failure on mechanical ventilation, displaying a total of 20 radiologically verified new atelectases that were treated by bronchoscopic interventions with consecutive suctioning of secretions, restoration of the surfactant film within the airways, and deposition of recombinant human deoxyribonuclease at the first segment level of the bronchial tree. On 13 occasions (65%), resolution of atelectases was proven by chest X-ray and resulted in improved lung function. We conclude that these bronchoscopic interventions may contribute to the restoration of the gas exchange area in moderately premature infants with acute respiratory distress syndrome–type respiratory syncytial virus–pneumonia.

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Krause, M. F., & Ankermann, T. (2014). Bronchoscopic interventions with surfactant and recombinant human deoxyribonuclease for acute respiratory distress syndrome–type respiratory syncytial virus–pneumonia in moderately preterm infants: Case series. SAGE Open Medical Case Reports, 2, 2050313X1455447. https://doi.org/10.1177/2050313x14554479

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