Pérez-Köhler Bárbara, García-Moreno Francisca, Bayon Yves, Pascual Gemma, Bellón Juan Manuel
Department of Surgery, Medical and Social Sciences. Faculty of Medicine and Health Sciences. University of Alcalá. Madrid, Spain; Networking Research Center on Bioengineering, Biomaterials and Nanomedicine (CIBER-BBN). Madrid, Spain.
Covidien-Sofradim Production, Trévoux, France.
PLoS One. 2015 May 11;10(5):e0126711. doi: 10.1371/journal.pone.0126711. eCollection 2015.
Presoaking meshes for hernia repair with antiseptics prior to implantation could decrease the adhesion of microorganisms to the material surface and reduce the risk of antibiotic resistances. In this work, we evaluate chlorhexidine and allicin (natural antiseptic not yet tested for these purposes) against vancomycin as antiseptics to be used in the pretreatment of a heavyweight polypropylene mesh using an in vitro model of bacterial contamination.
Solutions of saline, vancomycin (40 µg/mL), allicin (1,000 µg/mL), chlorhexidine (2%-0.05%) and the combination allicin-chlorhexidine (900 µg/mL-0.05%) were analyzed with agar diffusion tests in the presence of 106 CFU Staphylococcus aureus ATCC25923. Additionally, sterile fragments of Surgipro (1 cm2) were soaked with the solutions and cultured onto contaminated agar plates for 24/48/72 h. The antimicrobial material DualMesh Plus was utilized as positive control. At every time, the inhibition zones were measured and the bacterial adhesion to the mesh surface quantified (sonication, scanning electron microscopy). Cytotoxicity of the treatments was examined (alamarBlue) using rabbit skin fibroblasts.
The largest zones of inhibition were created by allicin-chlorhexidine. Chlorhexidine was more effective than vancomycin, and allicin lost its effectiveness after 24 h. No bacteria adhered to the surface of the DualMesh Plus or the meshes soaked with vancomycin, chlorhexidine and allicin-chlorhexidine. On the contrary, saline and allicin allowed adherence of high loads of bacteria. Vancomycin had no toxic effects on fibroblasts, while allicin and chlorhexidine exerted high toxicity. Cytotoxicity was significantly reduced with the allicin-chlorhexidine combination.
The use of antiseptics such as chlorhexidine, alone or combined with others like allicin, could represent an adequate prophylactic strategy to be used for hernia repair materials because soaking with these agents provides the mesh with similar antibacterial properties to those observed after soaking with vancomycin, similar to the effect of DualMesh Plus.
在植入前用防腐剂预浸用于疝修补的补片,可减少微生物在材料表面的黏附,并降低抗生素耐药性风险。在本研究中,我们使用细菌污染的体外模型,评估洗必泰和大蒜素(尚未针对这些用途进行测试的天然防腐剂)与万古霉素相比,作为用于预处理重磅聚丙烯补片的防腐剂的效果。
在含有106 CFU金黄色葡萄球菌ATCC25923的情况下,通过琼脂扩散试验分析生理盐水、万古霉素(40 µg/mL)、大蒜素(1000 µg/mL)、洗必泰(2%-0.05%)以及大蒜素-洗必泰组合(900 µg/mL-0.05%)的溶液。此外,将Surgipro(1 cm2)的无菌碎片用这些溶液浸泡,并在污染的琼脂平板上培养24/48/72小时。抗菌材料DualMesh Plus用作阳性对照。每次测量抑菌圈,并对补片表面的细菌黏附进行定量(超声处理、扫描电子显微镜)。使用兔皮肤成纤维细胞检查处理的细胞毒性(alamarBlue)。
大蒜素-洗必泰产生的抑菌圈最大。洗必泰比万古霉素更有效,大蒜素在24小时后失去效力。没有细菌黏附在DualMesh Plus或用万古霉素、洗必泰以及大蒜素-洗必泰浸泡的补片表面。相反,生理盐水和大蒜素允许大量细菌黏附。万古霉素对成纤维细胞没有毒性作用,而大蒜素和洗必泰具有高毒性。大蒜素-洗必泰组合可显著降低细胞毒性。
使用洗必泰等防腐剂,单独使用或与大蒜素等其他物质联合使用,可能是用于疝修补材料的适当预防策略,因为用这些试剂浸泡可为补片提供与用万古霉素浸泡后观察到的类似抗菌特性,类似于DualMesh Plus的效果。
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