Prophylaxis of implant-related infections by local release of vancomycin from a hydrogel in rabbits
Boot, W; Vogely, H C; Nikkels, P G; Pouran, B; van Rijen, M H; Ekkelenkamp, M B; Hänsch, G M; Dhert, W J; Gawlitta, D
(2020) European Cells & Materials, volume 39, pp. 108 - 120
(Article)
Abstract
Local prophylaxis with antibiotic-loaded bone cement is a successful method to prevent post-operative infections in patients receiving orthopaedic implants. No comparable method is available for uncemented implants. Therefore, a hydrogel consisting of hyaluronic and polylactic acids was evaluated in a rabbit model for delivery of antimicrobial agents to prevent post-operative
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infections. In a pilot study, the suitability of the vvo model was assessed by testing the hydrogel as carrier material for antimicrobial agents. In the main study, the antimicrobial-agent-loaded hydrogel was evaluated for infection prophylaxis. Rabbits received a titanium rod intramedullary in the tibia after contamination with Sphyoou uu. The rods were coated with unloaded hydrogel (Gel), hydrogel loaded with 2 % (Van2) or 5 % vancomycin (Van5), bioactive glass (BAG) or N-acetyl-L-cysteine (NAC). To analyse the infection severity after 28 d, histopathological, bacteriological, micro-computed tomographic and haematological analyses were performed. In the pilot study, the Van5 group had less infection (0/6 infected) as compared to the Gel group (5/5, p = 0.000) and the vvo model was deemed suitable. In the main study, in the Van2 and Van5 groups, the number of infected animals was lower [1/6 (p = 0.006) and 2/6 (p = 0.044) infected, respectively]. In contrast, BAG and NAC groups showed no infection reduction (5/6 both groups, p = 0.997). The hydrogel can be used as a local carrier of vancomycin for prophylaxis of implant-related infections. The present study showed promising results for local delivery of antibacterial agents by hydrogel to prevent implant-related infections.
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Keywords: Implant-related infection, hydrogel, in vivo, local delivery, prophylaxis, vancomycin, In Vivo, Prophylaxis, Local delivery, Hydrogel, Vancomycin, Bioengineering, Biochemistry, Biomedical Engineering, Cell Biology, Biomaterials, Journal Article
ISSN: 1473-2262
Publisher: Swiss Society for Biomaterials
Note: Funding Information: The study was performed under the multicentre Collaborative Project “I.D.A.C.”, funded by the European Commission, within the 7th Framework Programme on Research Technological Development and Demonstration, grant number 277988. WB was partially supported by Biomet. Publisher Copyright: © 2020, AO Research Institute Davos. All rights reserved. Copyright: Copyright 2020 Elsevier B.V., All rights reserved.
(Peer reviewed)