A case report of disseminated Streptococcus pneumoniae infection complicated by infective endocarditis, septic arthritis and epidural abscess in an immunocompetent patient.

Streptococcus pneumoniae is a highly virulent, vaccine-preventable pathogen which can cause disease on a spectrum from benign to fatal. Apart from pneumonia, it commonly causes septicaemia and meningitis. This case report describes an unusual range of complications in a 53-year-old Caucasian female presenting to a regional hospital, without any risk known factors for severe disease (such as extremes of age, immunodeficiency or co-morbidities). Progressing from an episode of otitis media, her condition rapidly progressed to mastoid sinusitis, septic arthritis, infective endocarditis, epidural abscesses and multiple subcutaneous abscesses. Following quick identification of S. pneumoniae from a positive blood culture, the patient was treated with high-dose benzylpenicillin and ceftriaxone and aggressive source control by surgery, enabling a good clinical recovery.

Prompt control of a Serratia marcescens outbreak in a neonatal intensive care unit informed by whole-genome sequencing and comprehensive infection control intervention package.

Objective: This report describes a cluster of patients infected by Serratia marcescens in a metropolitan neonatal intensive care unit (NICU) and a package of infection control interventions that enabled rapid, effective termination of the outbreak. Design: Cross-sectional analytical study using whole-genome sequencing (WGS) for phylogenetic cluster analysis and identification of virulence and resistance genes. Setting: NICU in a metropolitan tertiary-care hospital in Sydney, Australia. Patients: All neonates admitted to the level 2 and level 3 neonatal unit. Interventions: Active inpatient and environmental screening for Serratia marcescens isolates with WGS analysis for identification of resistance genes as well as cluster relatedness between isolates. Planning and implementation of a targeted, multifaceted infection control intervention. Results: The cluster of 10 neonates colonized or infected with Serratia marcescens was identified in a metropolitan NICU. Two initial cases involved devastating intracranial infections with brain abscesses, highlighting the virulence of this organism. A targeted and comprehensive infection control intervention guided by WGS findings enabled termination of this outbreak within 15 days of onset. WGS examination demonstrated phylogenetic linkage across the cluster, and genomic unrelatedness of later strains identified in the neonatal unit and elsewhere. Conclusions: A comprehensive, multipronged, infection control package incorporating close stakeholder engagement, frequent microbiological patient screening, environmental screening, enhanced cleaning, optimization of hand hygiene and healthcare worker education was paramount to the prompt control of Serratia marcescens transmission in this neonatal outbreak. WGS was instrumental in establishing relatedness between isolates and identification of possible transmission pathways in an outbreak setting.

Emerging Genotype IV Japanese Encephalitis Virus Outbreak in New South Wales, Australia.

The detection of a new and unexpected Japanese encephalitis virus (JEV) outbreak in March 2022 in Australia, where JEV is not endemic, demanded the rapid development of a robust diagnostic framework to facilitate the testing of suspected patients across the state of New South Wales (NSW). This nascent but comprehensive JEV diagnostic service encompassed serological, molecular and metagenomics testing within a centralised reference laboratory. Over the first three months of the outbreak (4 March 2022 to 31 May 2022), 1,061 prospective samples were received from 878 NSW residents for JEV testing. Twelve confirmed cases of Japanese encephalitis (JE) were identified, including ten cases diagnosed by serology alone, one case by metagenomic next generation sequencing and real-time polymerase chain reaction (RT-PCR) of brain tissue and serology, and one case by RT-PCR of cerebrospinal fluid, providing an incidence of JE over this period of 0.15/100,000 persons in NSW. As encephalitis manifests in <1% of cases of JEV infection, the population-wide prevalence of JEV infection is likely to be substantially higher. Close collaboration with referring laboratories and clinicians was pivotal to establishing successful JEV case ascertainment for this new outbreak. Sustained and coordinated animal, human and environmental surveillance within a OneHealth framework is critical to monitor the evolution of the current outbreak, understand its origins and optimise preparedness for future JEV and arbovirus outbreaks.

An Australian diagnostic microbiology surge response to the COVID-19 pandemic.

Diagnostic microbiology services form a critical component of the response to infectious disease outbreaks. Like previous respiratory virus pandemics, the COVID-19 pandemic has placed significant strains on the standing capacity of laboratories around the world. In this case study, we describe the surge response required by our laboratory to meet the fluctuating demand for SARS-CoV-2 in our regional pathology service in Western Sydney, Australia between March and May 2020. While the overall number of SARS-CoV-2 PCR positive cases was relatively low compared to other Australian local health districts, testing numbers were highly unpredictable and changed on a weekly basis as local outbreaks were detected. As with other laboratories, numerous other challenges were also faced during this period, including the requirement to introduce a new and unaccredited diagnostic PCR assay for SARS-CoV-2, local and global shortages of reagents for sampling and sample processing, and a significant institutional SARS-CoV-2 outbreak in our laboratory catchment area. A successful service delivery during this period could only be maintained by a dynamic whole-of-laboratory and organizational response including (1) operational changes to the hours of service and the expansion of diagnostic testing at our laboratory site and other sites within our organization (2) careful management of specialist staff and re-training and recruitment of additional staff (3) changes to laboratory workflows to improve SARS-CoV-2 PCR test turnaround time and to accommodate limits to precious laboratory reagents; (4) clear communication within our laboratory and the NSW Health Pathology organization; and (5) collaborative co-ordination and support by NSW Health Pathology.

Bacillus cereus bacteraemia complicated by a brain abscess in a pre-term neonate.

Bacillus cereus is a common laboratory and environmental contaminant. Reports of severe infections are mainly limited to immunocompromised individuals. In reported cases, the time interval between bacteraemia and neuro-invasion appears to be very short, highlighting the importance of rapid and definitive identification and susceptibility testing of invasive B. cereus. We report a case of a neonatal B. cereus bacteraemia complicated by a brain abscess from a neonatal intensive care unit. The neonate presented with bradycardia and desaturations with increased oxygen requirements. Initial blood culture detected B. cereus but was considered a contaminant. Repeated culturing of the Gram-positive rod was subsequently considered to be significant. Initial ultrasound head scans revealed echogenicity in the right posterior deep white matter. A large central cavity (5 mm diameter) could eventually be observed. The brain abscess resolved after surgical drainage and an extensive 6 weeks of antimicrobial therapy. This case study describes a rare event that illustrates the importance of rapid identification and susceptibility testing of invasive B. cereus isolates from immunocompromised patients.