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Living with lung disease: experimental models to assess the long-term effects of prematurityLaboratory models provide an important tool in helping to understand the cellular and molecular drivers of respiratory disease. Many animal models exist that model the neonatal outcomes of preterm birth.
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Previous Influenza Infection Exacerbates Allergen Specific Response and Impairs Airway Barrier Integrity in Pre-Sensitized MiceIn this study we assessed the effects of antigen exposure in mice preāsensitized with allergen following viral infection on changes in lung function, cellular responses and tight junction expression.
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Nasal airway epithelial repair after very preterm birthNasal epithelial cells from very preterm infants have a functional defect in their ability to repair beyond the first year of life, and failed repair may be associated with antenatal steroid exposure.
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Use of a primary epithelial cell screening tool to investigate phage therapy in cystic fibrosisThis study demonstrates the feasibility of utilizing pre-clinical in vitro culture models to screen therapeutic candidates
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Very preterm babies at risk of declining lung function throughout childhoodA The Kids Research Institute Australia study published in The Lancet Child & Adolescent Health has found that survivors of very preterm birth face declining lung function
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Treatment with inhaled aerosolised ethanol reduces viral load and potentiates macrophage responses in an established influenza mouse modelTreatment options for viral lung infections are currently limited. We aimed to explore the safety and efficacy of inhaled ethanol in an influenza-infection mouse model.
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Vulnerable from the first breath - epithelial dysfunction and respiratory outcomes in childrenAnthony David Stephen Susan Kicic Martino Stick Prescott BSc (Hons) PhD BSc PhD MB BChir PhD MRCP FRACP MBBS BMedSci PhD FRACP Rothwell Family Fellow
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Defective cell migration as a mechanism of dysregulated asthmatic airway repairAnthony Stephen Kicic Stick BSc (Hons) PhD MB BChir PhD MRCP FRACP Rothwell Family Fellow; Head, Airway Epithelial Research Head, P4 Respiratory
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Transcription factor p63 regulates key genes and wound repair in human airway epithelial Basal cellsThe airway epithelium in asthma displays altered repair and incomplete barrier formation.
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The airway epithelium is a direct source of matrix degrading enzymes in bronchiolitis obliterans syndromeLong-term survival after lung transplantation is hindered by the development of bronchiolitis obliterans syndrome (BOS).