Project description:Multidrug resistant Enterobacteriaceae isolated from carriage and infection in hospitalised individuals

Project description:Carriage of Enterobacteriaceae producing extended spectrum beta-lactamases in kindergarten children in the Lao People’s Democratic Republic

Project description:Multi-resistant Enterobacteriaceae in Yellow-legged Gull

Project description:Carriage study of streptococcus species among healthy children

Project description:The increasing spread of drug-resistant bacterial strains presents great challenges to clinical antibacterial treatment and public health, particularly with regard to β-lactamase-producing Enterobacteriaceae. A rapid and accurate detection method that can expedite precise clinical diagnosis and rational administration of antibiotics is urgently needed.

Project description:WGS of carbapenem-resistant Enterobacteriaceae from Nigeria

Project description:Genome sequencing of fosfomycin-resistant Enterobacteriaceae

Project description:Carbapenem-resistant Enterobacteriaceae in Bloodstream Infection

Project description:Whole-genome sequencing of carbapenem-resistant Enterobacteriaceae

Project description:Secondary bacterial pneumonia following influenza infection is a significant cause of mortality worldwide. Upper respiratory tract pneumococcal carriage is important as both determinants of disease and population transmission. The immunological mechanisms that contain pneumococcal carriage are well-studied in mice but remain unclear in humans. Loss of this control of carriage following influenza infection is associated with secondary bacterial pneumonia during seasonal and pandemic outbreaks. We used a human type 6B pneumococcal challenge model to show that carriage acquisition induces early degranulation of resident neutrophils and recruitment of monocytes to the nose. Monocyte function associated with clearance of pneumococcal carriage. Prior nasal infection with live attenuated influenza virus induced inflammation, impaired innate function and altered genome-wide nasal gene responses to pneumococcal carriage. Levels of the cytokine IP-10 promoted by viral infection at the time of pneumococcal encounter was positively associated with bacterial density. These findings provide novel insights in nasal immunity to pneumococcus and viral-bacterial interactions during co-infection.