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具有增强抗菌和抗粘附活性的全氟聚醚复合聚氨酯用于对抗导管相关感染。

Perfluoropolyether-incorporated polyurethane with enhanced antibacterial and anti-adhesive activities for combating catheter-induced infection.

作者信息

Zhang Yang, Song Guangbin, Hu Can, Liu Zixu, Liu Huansen, Wang Yilei, Wang Liang, Feng Xuequan

机构信息

School of Chemistry and Chemical Engineering, Tianjin University of Technology Tianjin China

Neurosurgery Department, Tianjin First Centre Hospital Tianjin China

出版信息

RSC Adv. 2024 Jan 2;14(1):568-576. doi: 10.1039/d3ra07831k.

DOI:10.1039/d3ra07831k
PMID:38173603
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10759042/
Abstract

To avoid the undesired bacterial attachment on polyurethane-based biomedical devices, we designed a class of novel perfluoropolyether-incorporated polyurethanes (PFPU) containing different contents of perfluoropolyether (PFPE) segments. After blending with Ag nanoparticles (AgNPs), a series of bifunctional PFPU/AgNPs composites with bactericidal and anti-adhesion abilities were obtained and correspondingly made into PFPU/AgNPs films (PFPU/Ag-F) using a simple solvent-casting method. Due to its highest hydrophobicity and suitable mechanical properties, PFPU8/Ag-F containing 8 mol% of PFPE content was chosen as the optimized one for the next antibacterial assessment. The PFPU8/Ag-F can effectively deactivate over 99.9% of () and () cells at 10 CFU mL within 30 min. Furthermore, the PFPU8/AgNPs composite was used as painting material to form a protective coating for the commercial polyurethane (PU) catheter. The as-prepared PFPU8/Ag coating exhibits high resistance to bacterial adhesion in a continuous-flow artificial urine model in an 8 day exposure. Therefore, it can be expected that the proposed PFPE-containing films and coatings can effectively prevent bacterial colonization and biofilm formation on catheters or other implants, thereby reducing the risk of postoperative catheter-induced infection.

摘要

为避免细菌在聚氨酯基生物医学装置上不必要的附着,我们设计了一类新型的含全氟聚醚的聚氨酯(PFPU),其含有不同含量的全氟聚醚(PFPE)链段。与银纳米颗粒(AgNPs)混合后,获得了一系列具有杀菌和抗粘附能力的双功能PFPU/AgNPs复合材料,并相应地使用简单的溶液浇铸法制成PFPU/AgNPs薄膜(PFPU/Ag-F)。由于其最高的疏水性和合适的机械性能,选择含8摩尔%PFPE含量的PFPU8/Ag-F作为下一次抗菌评估的优化材料。PFPU8/Ag-F在30分钟内可有效使10 CFU/mL的()和()细胞失活率超过99.9%。此外,PFPU8/AgNPs复合材料用作涂料,为商用聚氨酯(PU)导管形成保护涂层。所制备的PFPU8/Ag涂层在连续流动人工尿液模型中暴露8天时表现出对细菌粘附的高抗性。因此,可以预期,所提出的含PFPE的薄膜和涂层可以有效地防止细菌在导管或其他植入物上的定植和生物膜形成,从而降低术后导管引起感染的风险。

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