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Cultures of HRV-C for investigations of pathogenesis in children

Anthony Belinda Ingrid Kicic Hales Laing BSc (Hons) PhD BSc (Hons) PhD BSc PhD Rothwell Family Fellow; Head, Airway Epithelial Research Senior

Defective cell migration as a mechanism of dysregulated asthmatic airway repair

The findings from this study show that in children with asthma this protective barrier is different from children without asthma.

Improved diagnosis, treatment and prevention of recurrent tonsillitis

Strep A causes over 775 million infections each year world-wide, including over 615 million cases of tonsil infection (Strep throat).

Vulnerable from the first breath - epithelial dysfunction and respiratory outcomes in children

We have been studying the importance of the epithelial cells lining the airways in the nose and lungs.

A primary cell model of the very preterm epithelium reveals barrier defects at 1 year of age

Limited evidence suggests that airway epithelial structure and function is disrupted in very preterm infants; however, the epithelial morphology and physiology has not been well characterised following discharge from neonatal intensive care. This study aimed to characterise the nasal airway epithelium from 1-year-old survivors of very preterm birth.

Azithromycin mitigates human rhinovirus impact on barrier integrity and function in non-diseased airway epithelium

Azithromycin improves symptomology in various chronic airway diseases exacerbated by viral infections. However, the mechanisms underlying the apparent antiviral effects of azithromycin remain unclear.

Global participatory wastewater surveillance to understand mpox clade diversity in war and conflict-affected countries

War and conflict severely disrupt public health systems, compromising infectious disease surveillance in many affected regions. Mpox, a re-emerging zoonotic disease, poses a growing global threat, especially in areas where traditional monitoring is inaccessible.The mpox virus has distinct clades with varying transmission and severity.

Lytic activity, stability, biofilm disruption capabilities and genomic characterisation of two bacteriophages active against respiratory MRSA

This study aimed to characterise bacteriophages for potential therapeutic use against Staphylococcus aureus, focusing on clinical respiratory isolates of methicillin-sensitive (MSSA) and methicillin-resistant (MRSA) strains. Specifically, it sought to evaluate phage lytic activity, host range, stability, biofilm disruption capabilities, and overall safety for therapeutic use.

Complete genome sequence of Burkholderia cenocepacia bacteriophage Karil-mokiny-1

Burkholderia cepacia complex causes life-threatening respiratory infections. Here, a bacteriophage with activity against B. cenocepacia was isolated from wastewater. It has a genome size of 70,144 bp and has the taxonomic classification Irusalimvirus. It has no genes associated with lysogeny, bacterial resistance, or virulence.

Combination of curcumin or chitosan with photodynamic therapy as an effective alternative therapy for overcoming wound infection associated with multidrug-resistant Acinetobacter baumannii

The increasing prevalence of multidrug-resistant Acinetobacter baumannii as an opportunistic pathogen in wound infections raises significant concerns due to its antibiotic resistance and biofilm-mediated antibiotic tolerance. This underscores the urgent need to explore an alternative approach to effectively managing wound infections caused by MDR A. baumannii.