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Autores principales: Kaouane, Ghalia, Berret, Jean-François, Cremillieux, Yannick, Pinaud, Noël, Munsch, Fanny, Zhang, Bei, Fayon, Michael, Gérard, Rémy, De La Roque, Eric Dumas, Perinel-Ragey, Sophie, Leclerc, Lara, Pourchez, Jérémie
Formato: Preprint
Publicado: 2025
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Acceso en línea:https://arxiv.org/abs/2506.00029
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author Kaouane, Ghalia
Berret, Jean-François
Cremillieux, Yannick
Pinaud, Noël
Munsch, Fanny
Zhang, Bei
Fayon, Michael
Gérard, Rémy
De La Roque, Eric Dumas
Perinel-Ragey, Sophie
Leclerc, Lara
Pourchez, Jérémie
author_facet Kaouane, Ghalia
Berret, Jean-François
Cremillieux, Yannick
Pinaud, Noël
Munsch, Fanny
Zhang, Bei
Fayon, Michael
Gérard, Rémy
De La Roque, Eric Dumas
Perinel-Ragey, Sophie
Leclerc, Lara
Pourchez, Jérémie
contents Administration of pulmonary surfactant is crucial for the treatment of respiratory distress syndrome (RDS) in preterm infants. The aim of this study is to evaluate the potential of Curosurf atomization via the Endosurf device, a recently developed spray technology, as a promising approach for surfactant delivery in infants with RDS. A comprehensive analysis was performed to evaluate the physicochemical properties of atomized Curosurf, including its surface tension and rheology. The size distribution of Curosurf vesicles was also investigated. An ex vivo respiratory model based on rabbit lungs breathing through an instrumented hypobaric chamber representing the thorax of a preterm infant was developed to provide proof of concept for regional aerosol deposition of atomized Curosurf. The atomization of Curosurf with the innovative Endosurf device did not significantly alter surface tension, but reduced vesicle size and promoted homogeneous distribution of Curosurf in the lungs. Rheological measurements showed the viscoelastic complexity of atomized Curosurf. This preliminary study confirmed the promising potential of Curosurf atomization via the Endosurf device for the distribution of surfactant in the lungs of infants with RDS. These advances could help to improve the treatment of RDS in preterm infants and offer new perspectives for healthcare professionals and affected families.
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institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Characterization of atomization and delivery efficiency of exogenous surfactant in preterm infant lungs using an ex vivo respiratory model
Kaouane, Ghalia
Berret, Jean-François
Cremillieux, Yannick
Pinaud, Noël
Munsch, Fanny
Zhang, Bei
Fayon, Michael
Gérard, Rémy
De La Roque, Eric Dumas
Perinel-Ragey, Sophie
Leclerc, Lara
Pourchez, Jérémie
Medical Physics
Materials Science
Administration of pulmonary surfactant is crucial for the treatment of respiratory distress syndrome (RDS) in preterm infants. The aim of this study is to evaluate the potential of Curosurf atomization via the Endosurf device, a recently developed spray technology, as a promising approach for surfactant delivery in infants with RDS. A comprehensive analysis was performed to evaluate the physicochemical properties of atomized Curosurf, including its surface tension and rheology. The size distribution of Curosurf vesicles was also investigated. An ex vivo respiratory model based on rabbit lungs breathing through an instrumented hypobaric chamber representing the thorax of a preterm infant was developed to provide proof of concept for regional aerosol deposition of atomized Curosurf. The atomization of Curosurf with the innovative Endosurf device did not significantly alter surface tension, but reduced vesicle size and promoted homogeneous distribution of Curosurf in the lungs. Rheological measurements showed the viscoelastic complexity of atomized Curosurf. This preliminary study confirmed the promising potential of Curosurf atomization via the Endosurf device for the distribution of surfactant in the lungs of infants with RDS. These advances could help to improve the treatment of RDS in preterm infants and offer new perspectives for healthcare professionals and affected families.
title Characterization of atomization and delivery efficiency of exogenous surfactant in preterm infant lungs using an ex vivo respiratory model
topic Medical Physics
Materials Science
url https://arxiv.org/abs/2506.00029