The global dental implant market is projected to reach $9.5 billion by 2032, growing at a 6.5% compound annual growth rate due to the rising prevalence of dental diseases. Importantly, this growth raises concerns about postoperative infections, which present significant challenges within our healthcare system and lead to a two-thirds failure rate for infected implants. In this study, we present an innovative multilevel coating system that makes the surface of dental titanium implants resistant to bacterial colonization, thereby minimizing the risk of infection development. This multilevel coating features a nanometer-thick biohybrid coating layer combined with a microgroove surface microstructuring, creating physical barriers that enhance the stability of the biohybrids against mechanical abrasion. Our coating demonstrates excellent biocompatibility and strong antifouling properties against undiluted blood plasma proteins. Furthermore, the combination of surface microstructuring and the biohybrid coating remains stable under prolonged mechanical stress simulation and effectively repels clinically relevant bacteria, achieving a 99% reduction in bacterial colonization on the implant. These findings underscore the potential of this approach to prevent implant-associated infections and highlight the critical role of surface engineering in ensuring long-term implant performance.
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| http://dx.doi.org/10.1021/acsami.4c21111 | DOI Listing |
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