浸银纳米粒子的牛骨支架对新德里金属-β-乳酰胺酶产革兰阴性杆菌生物膜的抗菌活性

Compounds Pub Date : 2023-11-15 DOI:10.3390/compounds3040042
Geiziane Aparecida Gonçalves, V. Ribeiro, Letícia Ramos Dantas, A. P. de Andrade, P. Suss, Maria Alice Witt, F. Tuon
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引用次数: 0

摘要

简介:银纳米粒子的抗生物膜活性已在常见细菌中得到广泛研究。产生金属-β-内酰胺酶的革兰氏阴性菌是难以治疗的微生物,治疗方法很少,而纳米银粒子尚未对这些细菌的生物膜进行评估。研究目的本研究旨在评估浸渍了纳米银颗粒的骨支架对产NDM革兰氏阴性杆菌的生物膜抗菌活性。研究方法试验采用牛股骨骨支架,并通过物理吸附法浸渍纳米银颗粒(50 nm)。对产生 NDM 的大肠埃希菌、肺炎克雷伯菌和铜绿假单胞菌进行了硝酸银最小抑菌浓度和杀菌浓度(MIC 和 MBC)试验。此外,还进行了银纳米颗粒药敏性的盘扩散试验,以及平板和骨上生物膜生成量与无柄细胞计数的定量分析。结果显示MIC 结果表明,硝酸银对所有微生物都有抗菌作用,从 8 µg/mL 浓度开始就能灭活分离菌的生长。MBC 结果显示,大肠杆菌 16.211 是唯一一种 MIC 值与 MBC 值不同的分离物,其 MIC 值为 16 µg/mL。结论浸渍了纳米银颗粒的骨支架能显著减少耐多药细菌的生物膜。这是一种可在不同临床条件下用作骨植入物的战略性材料。
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Antimicrobial Activity of Bovine Bone Scaffolds Impregnated with Silver Nanoparticles on New Delhi Metallo-β-Lactamase-Producing Gram-Negative Bacilli Biofilms
Introduction: The antibiofilm activity of silver nanoparticles has been extensively investigated in common bacteria. Metallo-β-lactamase-producing Gram-negative bacteria are hard-to-treat microorganisms with few therapeutic options, and silver nanoparticles were not evaluated on the biofilm of these bacteria. Objectives: The aim of this study was to evaluate the antibiofilm activity of a bone scaffold impregnated with silver nanoparticles in NDM-producing Gram-negative bacilli. Methods: Bone scaffolds from bovine femur were used for the tests and impregnated with silver nanoparticles (50 nm) by physical adsorption. Silver nitrate minimal inhibitory and bactericidal concentrations (MIC and MBC) were performed on NDM-producing Escherichia coli, Klebsiella pneumoniae, and Pseudomonas aeruginosa. Disc diffusion tests for silver nanoparticles’ susceptibility and the quantification of biofilm production on plate and bone with sessile cell count were performed. Results: The MIC results demonstrated that silver nitrate had an antimicrobial effect on all microorganisms, inactivating the growth of isolates from a concentration of 8 µg/mL. MBC results showed that E. coli 16.211 was the only isolate to present MIC that were different from MBC, with a value of 16 µg/mL. Conclusion: Bone scaffolds impregnated with silver nanoparticles can significantly reduce the biofilm of multidrug-resistant bacteria. This is a strategical material that can be used as bone implant in different clinical conditions.
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