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Metastructure “Trap” Coating by Acoustic Confinement Effect for Antibacterial Sonothermal Therapy

Shiwei Guan, Shuhan Chen, Xianming Zhang, Haifeng Zhang, Xingdan Liu, Xingdan Liu, Zhiyu Hou, Fang Wang, Qian Shi, Hongqin Zhu, Ji Tan, Xuanyong Liu, Xuanyong Liu

2024Advanced Functional Materials29 citationsDOI

Abstract

Abstract Antibacterial sonothermal therapy (ASTT) is attractive for treating implant‐associated infection, which addresses the limitations of poor penetration of photothermal therapy. However, achieving implant surface‐specific ultrasound heating is incredibly challenging. Inspired by the porous acoustic metastructure in noise reduction, the acoustic metastructure would be a new strategy for attaining ASTT. Herein, an “acoustic confinement effect” is proposed to “trap” ultrasound for the metastructure TiO 2 porous coating on titanium implants. The metastructure coating accomplishes specific acoustic absorption and efficient acoustic‐to‐thermal conversion, surpassing the non‐specific heating of conventional coatings. The theoretical calculation and experiment of metastructure porous coating prove the acoustic‐to‐thermal conversion mechanism, which is also validated in metastructure porous coatings on medical polyetheretherketone, indicating it is universal. Excitingly, this acoustic metastructure “trap” can capture bacteria and local sonothermal enhancement, exhibiting superior ASTT antibacterial rates ( S. aureus , 99.69%; E. coil , 99.58%) at low‐power ultrasound. In addition, the metastructure TiO 2 coating mimics human bone and demonstrates outstanding osseointegration. This study sheds substantial light on developing the acoustic responsive surface, broadening a new direction of acoustic metamaterials in medical applications.

Topics & Concepts

Materials scienceCoatingOsseointegrationPhotothermal therapyComposite materialPorosityAcoustic waveNanotechnologyImplantAcousticsMedicineSurgeryPhysicsAcoustic Wave Phenomena ResearchUltrasound and Cavitation PhenomenaCellular and Composite Structures