Prevention of meningococcal infections in the first 2 years of life

Compartmentalization of the inflammatory response during bacterial sepsis and severe COVID-19

Acute infections cause local and systemic disorders which can lead in the most severe forms to multi-organ failure and eventually to death. The host response to infection encompasses a large spectrum of reactions with a concomitant activation of the so-called inflammatory response aimed at fighting the infectious agent and removing damaged tissues or cells, and the anti-inflammatory response aimed at controlling inflammation and initiating the healing process. Fine-tuning at the local and systemic levels is key to preventing local and remote injury due to immune system activation. Thus, during bacterial sepsis and Coronavirus disease 2019 (COVID-19), concomitant systemic and compartmentalized pro-inflammatory and compensatory anti-inflammatory responses are occurring. Immune cells (e.g., macrophages, neutrophils, natural killer cells, and T-lymphocytes), as well as endothelial cells, differ from one compartment to another and contribute to specific organ responses to sterile and microbial insult. Furthermore, tissue-specific microbiota influences the local and systemic response. A better understanding of the tissue-specific immune status, the organ immunity crosstalk, and the role of specific mediators during sepsis and COVID-19 can foster the development of more accurate biomarkers for better diagnosis and prognosis and help to define appropriate host-targeted treatments and vaccines in the context of precision medicine.

Concurrent meningococcal and herpes simplex infection in a non-immunocompromised child

A previously well 11-month-old infant presented with lethargy, a blanching rash, vomiting and diarrhoea. She was diagnosed with suspected gastroenteritis and discharged. The patient deteriorated and re-presented 24 h later with lumbar puncture (LP) confirming Neisseria meningitidis. Following an initial good response to ceftriaxone, the patient then developed a blistering facial rash on day 3 for which topical aciclovir was started with no improvement. She subsequently developed fever and redeveloped a rising C reactive protein (CRP). A CT of the head on day 6 was normal, however a repeat LP on day 7 showed persistently raised cerebrospinal fluid (CSF), white cell count (WCC), high proteins and low CSF glucose. A CSF viral PCR confirmed concurrent herpes simplex virus (HSV) type 1 for which parenteral aciclovir was started. The patient responded well to bacterial and viral anti-infective treatments and was subsequently discharged on day 16 with no neurological sequelae.