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A systematic review on current osteosynthesis-associated infection animal fracture models

Wong, R. M. Y. and Li, T. K. and Li, J. and Ho, W. T. and Chow, S. K. and Leung, S. S. Y. and Cheung, W. H. and Ip, M.

J Orthop Translat (2020) 23: 8–20

DOI: 10.1016/j.jot.2020.03.002

Abstract

OBJECTIVE: Osteosynthesis-associated infection is a challenging complication post fracture fixation, burdening the patients and the orthopaedic surgeons alike. A clinically relevant animal model is critical in devising new therapeutic strategies. Our aim was to perform a systematic review to evaluate existing preclinical models and identify their applications in aspects of animal selection, bacterial induction, fracture fixation and complications. METHODS: A systematic literature research was conducted in PubMed and Embase up to February 2020. A total of 31 studies were included. Information on the animal, bacterial induction, fracture fixation, healing result and complications were extracted. RESULTS: Animals selected included murine (23), rabbit (6), ewe (1) and goat (1). Larger animals had enabled the use of human-sized implant, however small animals were more economical and easier in handling. Staphylococcus aureus (S. aureus) was the most frequently chosen bacteria for induction. Bacterial inoculation dose ranged from 10(2-8) ​CFU. Consistent and replicable infections were observed from 10(4) ​CFU in general. Methods of inoculation included injections of bacterial suspension (20), placement of foreign objects (8) and pretreatment of implants with established biofilm (3). Intramedullary implants (13), plates and screws (18) were used in most models. Radiological (29) and histological evaluations (24) in osseous healing were performed. Complications such as instability of fracture fixation (7), unexpected surgical death (5), sepsis (1) and persistent lameness (1) were encountered. CONCLUSION: The most common animal model is the S. aureus infected open fracture internally fixated. Replicable infections were mainly from 10(4) ​CFU of bacteria. However, with the increase in antibiotic resistance, future directions should explore polymicrobial and antibiotic resistant strains, as these will no doubt play a major role in bone infection. Currently, there is also a lack of osteoporotic bone infection models and the pathophysiology is unexplored, which would be important with our aging population. THE TRANSLATIONAL POTENTIAL OF THIS ARTICLE: This systematic review provides an updated overview and compares the currently available animal models of osteosynthesis-associated infections. A discussion on future research directions and suggestion of animal model settings were made, which is expected to advance the research in this field.

Citation

Wong, R. M. Y., Li, T. K., Li, J., Ho, W. T., Chow, S. K., Leung, S. S. Y., Cheung, W. H., & Ip, M. (2020). A systematic review on current osteosynthesis-associated infection animal fracture models. J Orthop Translat, 23, 8–20. https://doi.org/10.1016/j.jot.2020.03.002 Systematic review, Animal models, Fracture, Infection models, Osteosynthesis-associated infection

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