Sonodynamic effect based on vancomycin-loaded microbubbles or meropenem-loaded microbubbles enhances elimination of different biofilms and bactericidal efficacy.

IF 4.7 2区 医学 Q2 CELL & TISSUE ENGINEERING Bone & Joint Research Pub Date : 2024-09-03 DOI:10.1302/2046-3758.139.BJR-2023-0319.R3
Liqin Yao, Chenghan Chu, Yicheng Li, Li Cao, Jianhua Yang, Wenbo Mu
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Abstract

Aims: This study investigated vancomycin-microbubbles (Vm-MBs) and meropenem (Mp)-MBs with ultrasound-targeted microbubble destruction (UTMD) to disrupt biofilms and improve bactericidal efficiency, providing a new and promising strategy for the treatment of device-related infections (DRIs).

Methods: A film hydration method was used to prepare Vm-MBs and Mp-MBs and examine their characterization. Biofilms of methicillin-resistant Staphylococcus aureus (MRSA) and Escherichia coli were treated with different groups. Biofilm biomass differences were determined by staining. Thickness and bacterial viability were observed with confocal laser scanning microscope (CLSM). Colony counts were determined by plate-counting. Scanning electron microscopy (SEM) observed bacterial morphology.

Results: The Vm-MBs and Mp-MBs met the experimental requirements. The biofilm biomass in the Vm, Vm-MBs, UTMD, and Vm-MBs + UTMD groups was significantly lower than in the control group. MRSA and E. coli biofilms were most notably damaged in the Vm-MBs + UTMD group and Mp-MBs + UTMD group, respectively, with mean 21.55% (SD 0.08) and 19.73% (SD 1.25) remaining in the biofilm biomass. Vm-MBs + UTMD significantly reduced biofilm thickness and bacterial viability (p = 0.005 and p < 0.0001, respectively). Mp-MBs + UTMD could significantly decrease biofilm thickness and bacterial viability (allp < 0.001). Plate-counting method showed that the numbers of MRSA and E. coli bacterial colonies were significantly lower in the Vm-MBs + UTMD group and the Mp, Mp-MBs, UTMD, Mp-MBs + UTMD groups compared to the control group (p = 0.031). SEM showed that the morphology and structure of MRSA and E. coli were significantly damaged in the Vm-MBs + UTMD and Mp-MBs + UTMD groups.

Conclusion: Vm-MBs or Mp-MBs combined with UTMD can effectively disrupt biofilms and protectively release antibiotics under ultrasound mediation, significantly reducing bacterial viability and improving the bactericidal effect of antibiotics.

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基于万古霉素微气泡或美罗培南微气泡的声动力效应增强了对不同生物膜的消除和杀菌效果。
目的:本研究调查了万古霉素-微泡(Vm-MBs)和美罗培南(Mp)-MBs与超声靶向微泡破坏(UTMD),以破坏生物膜并提高杀菌效率,为治疗设备相关感染(DRIs)提供一种新的、有前景的策略:方法:采用薄膜水合法制备 Vm-MBs 和 Mp-MBs 并研究其特性。用不同组别处理耐甲氧西林金黄色葡萄球菌(MRSA)和大肠杆菌的生物膜。通过染色确定生物膜生物量的差异。用激光共聚焦扫描显微镜(CLSM)观察生物膜厚度和细菌存活率。通过平板计数确定菌落数。扫描电子显微镜(SEM)观察细菌形态:结果:Vm-MB 和 Mp-MB 均符合实验要求。Vm组、Vm-MBs组、UTMD组和Vm-MBs + UTMD组的生物膜生物量明显低于对照组。在 Vm-MBs + UTMD 组和 Mp-MBs + UTMD 组中,MRSA 和大肠杆菌生物膜分别受到了最明显的破坏,生物膜生物量的平均剩余率分别为 21.55%(SD 0.08)和 19.73%(SD 1.25)。Vm-MBs + UTMD 可显著降低生物膜厚度和细菌存活率(p = 0.005 和 p < 0.0001)。Mp-MBs + UTMD 可明显降低生物膜厚度和细菌活力(均 p < 0.001)。平板计数法显示,与对照组相比,Vm-MBs + UTMD 组和 Mp、Mp-MBs、UTMD、Mp-MBs + UTMD 组的 MRSA 和大肠杆菌菌落数明显减少(p = 0.031)。扫描电镜显示,Vm-MBs + UTMD 组和 Mp-MBs + UTMD 组的 MRSA 和大肠杆菌的形态和结构受到了明显的破坏:结论:Vm-MBs 或 Mp-MBs 与 UTMD 结合使用可有效破坏生物膜,并在超声介导下保护性释放抗生素,显著降低细菌活力,提高抗生素的杀菌效果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Bone & Joint Research
Bone & Joint Research CELL & TISSUE ENGINEERING-ORTHOPEDICS
CiteScore
7.40
自引率
23.90%
发文量
156
审稿时长
12 weeks
期刊介绍: The gold open access journal for the musculoskeletal sciences. Included in PubMed and available in PubMed Central.
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