Antimicrobial and anti-Inflammatory gallium Implanted ‘trojan Horse’ surfaces for implantable devices
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Date
2021-11-23
Journal Title
Journal ISSN
Volume Title
Publisher
Australian Nuclear Science and Technology Organisation
Abstract
A rapidly aging population, high incidence of osteoporosis and trauma-related fractures, and better health care access explain rapid surge in utilisation of orthopedic implantable devices. Unfortunately, many implants fail without strategies that synergistically prevent infections and enhance the implant’s integration with host tissues. Here, we propose a solution that builds on our pioneering work on gallium (Ga)-enhanced biomaterials, which show exceptional antimicrobial activity, and combined it with defensin (De, hBD-1), which has potent anti-microbial activity in vivo as part of the innate immune system. Our aim was to simultaneously impart antimicrobial activity and anti-inflammatory properties to polymer-based implantable devices through the modification of the surfaces with Ga ions and immobilisation of De. Poly-lactic acid (PLA) films were modified using Ga implantation using the Surface Engineering Beamline of the 6MV SIRIUS tandem accelerator at ANSTO Australia, and subsequently functionalised with De. Ga ion implantation increased surface roughness and increased stiffness of treated PLA surfaces and led to the reduction in foreign body giant cell formation and expression of pro-inflammatory cytokine IL-1β. Ga implantation and defensin immobilization both independently and synergistically introduced antimicrobial activity to the surfaces, significantly reducing total live biomass. We demonstrated, for the first time, that antimicrobial effects of De were enhanced by its surface immobilization. Cumulatively, the Ga-De surfaces were able to kill bacteria and reduce inflammation in comparison to the untreated control. These innovative surfaces have the potential to prevent biofilm formation without inducing cellular toxicity or inflammation, which is essential in enhancing integration of implantable devices with host tissues and hence, ensure their longevity. © The Authors
Description
Keywords
Antimicrobial agents, Antipyretics, Gallium, Implants, ANSTO, Australian organizations, Polymers, Accelerators
Citation
Divakarla, S. K. Das, T., Chatterjee, C., Isonesu, M., Pastuovic, Z., Jang, J.-H., Alkhoury, H., Loppnow, H., Yamaguchi, S., Goth, T., & Chrzanowski, W., (2021). Antimicrobial and anti-Inflammatory gallium Implanted ‘trojan Horse’ surfaces for implantable devices. Presentation to the ANSTO User Meeting 2021, 24-26 November 2021, Online. Retrieved from: https://events01.synchrotron.org.au/event/146/contributions/4269/