Journal of medical microbiology
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The development of infections is one of the main complications in orthopaedics, especially in the presence of implants for the osteosynthesis of compound fractures and joint prosthesis. Indeed, foreign materials and implants act as substrates for the adhesion and proliferation of bacterial strains able to produce biofilm, causing peri-implant osteomyelitis. The eradication of biofilm remains a great challenge for the host immune system, as well as for medical and surgical approaches, thus imposing the need for new prophylactic and/or therapeutic strategies in which animal models have an essential role. ⋯ This review examines the relevance of rabbits for the development of clinically representative models by analysing the pros and cons of the different approaches published in the literature. This analysis will aid in increasing our knowledge concerning orthopaedic infections by using this species. This review will be a tool for researchers who need to approach pre-clinical studies in the field of bone infection and have to identify the most appropriate animal model to verify their scientific hypothesis.
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Basidiobolus ranarum is a known cause of chronic subcutaneous zygomycosis. During the past decade, many cases have been reported with extracutaneous basidiobolomycosis. We aimed to review the medical literature on gastrointestinal basidiobolomycosis (GIB) as an emerging fungal infection causing a serious, and occasionally fatal, paediatric disease. ⋯ Surgery plus long courses of itraconazole treatment, up to 1 year, appear to be the best management options. GIB is an emerging infection that might lead to diagnostic confusion, morbidity and mortality. Diagnosis requires a high index of suspicion in the differential diagnosis of patients with fever, abdominal pain with mass and eosinophilia.
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Review
Moraxella (Branhamella) catarrhalis--clinical and molecular aspects of a rediscovered pathogen.
Since its discovery at the end of the nineteenth century, Moraxella (Branhamella) catarrhalis has undergone several changes of nomenclature and periodic changes in its perceived status as either a commensal or a pathogen. Molecular analysis based on DNA hybridisation or 16S rDNA sequence comparisons has established its phylogenetic position as a member of the Moraxellaceae and shown that it is related more closely to Acinetobacter spp. than to the genus Neisseria in which it was placed formerly. However, confusion with phenotypically similar Neisseria spp. can occur in the routine diagnostic laboratory if appropriate identification tests are not performed. ⋯ Increased understanding of the organism's pathogenic properties and the host response to it may help to identify suitable vaccine targets or lead to other strategies to prevent infection. Whilst it remains, at present, the third most important respiratory pathogen, the impact of immunisation strategies for other organisms may change this position. The speed with which M. catarrhalis acquired beta-lactamase demonstrates the capacity of this organism to surprise us.