Nasal microbiota transplantation: a gateway to novel treatments.

Two recent studies have highlighted the potential of nasal microbiota transplantation (NMT) to treat chronic rhinosinusitis (CRS). Here we evaluate these findings and propose that lessons from fecal microbiota transplantation (FMT) could guide NMT development, with possible implications for combating antimicrobial resistance in respiratory infections.

Reliability of cushion construction for a low-cost pressure-reducing wheelchair cushion for less-resourced settings.

In less-resourced settings, 80% of people with spinal cord injuries die from pressure ulcer complications within two years. Appropriately constructed wheelchair cushions are effective in reducing incidence and severity of pressure ulcers. The Tuball is an inexpensive wheelchair cushion designed for users in less-resourced settings, which can be reproduced by local clinicians using locally sourced materials.

Prolonged hospitalization signature and early antibiotic effects on the nasopharyngeal resistome in preterm infants.

Respiratory pathogens, commonly colonizing nasopharynx, are among the leading causes of death due to antimicrobial resistance. Yet, antibiotic resistance determinants within nasopharyngeal microbial communities remain poorly understood. In this prospective cohort study, we investigate the nasopharynx resistome development in preterm infants, assess early antibiotic impact on its trajectory, and explore its association with clinical covariates using shotgun metagenomics.

Exploring ex vivo biofilm dynamics: consequences of low ampicillin concentrations on the human oral microbiome.

Prolonged exposure to antibiotics at low concentration can promote processes associated with bacterial biofilm formation, virulence and antibiotic resistance. This can be of high relevance in microbial communities like the oral microbiome, where commensals and pathogens share a common habitat and where the total abundance of antibiotic resistance genes surpasses the abundance in the gut. Here, we used an ex vivo model of human oral biofilms to investigate the impact of ampicillin on biofilm viability.