Gallium–Strontium Phosphate Conversion Coatings for Promoting Infection Prevention and Biocompatibility of Magnesium for Orthopedic Applications
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Li, RW
Qiu, Y
Man, SM
Tuipulotu, DE
Birbilis, N
Smith, PN
Cole, I
Kaplan, DL
Chen, XB
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Abstract
Device-associated infections remain a clinical challenge. The common strategies to prevent bacterial infection are either toxic to healthy mammalian cells and tissue or involve high doses of antibiotics that can prompt long-term negative consequences. An antibiotic-free coating strategy to suppress bacterial growth is presented herein, which concurrently promotes bone cell growth and moderates the dissolution kinetics of resorbable magnesium (Mg) biomaterials. Pure Mg as a model biodegradable material was coated with gallium-doped strontium-phosphate through a chemical conversion process. Gallium was distributed in a gradual manner throughout the strontium-phosphate coating, with a compact structure and a gallium-rich surface. It was demonstrated that the coating protected the underlying Mg parts from significant degradation in minimal essential media at physiological conditions over 9 days. In terms of bacteria culture, the liberated gallium ions from the coatings upon Mg specimens, even though in minute quantities, inhibited the growth of Gram-positiveStaphylococcus aureus, Gram-negative Escherichia coli, andPseudomonas aeruginosa - key pathogens causing infection and early failure of the surgical implantations in orthopedics and trauma. More importantly, the gallium dopants displayed minimal interferences with the strontium-phosphate-based coating which boosted osteoblasts and undermined osteoclasts in in vitro co-cultures. This work provides a new strategy to prevent bacterial infection and control the degradation behavior of Mg-based orthopedic implants, while preserving osteogenic features of the devices.
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ACS Biomaterials Science and Engineering
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8
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6
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Orthopaedics
Nanobiotechnology
Biomaterials
bacterial infection
gallium
magnesium
orthopedic implants
strontium phosphate coating
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Song, MS; Li, RW; Qiu, Y; Man, SM; Tuipulotu, DE; Birbilis, N; Smith, PN; Cole, I; Kaplan, DL; Chen, XB, Gallium–Strontium Phosphate Conversion Coatings for Promoting Infection Prevention and Biocompatibility of Magnesium for Orthopedic Applications, ACS Biomaterials Science and Engineering, 2022, 8 (6), pp. 2709-2723