Pop Corina Silvia, Hussien Mohamed D, Popa Marcela, Mares Alina, Grumezescu Alexandru Mihai, Grigore Raluca, Lazar Veronica, Chifiriuc Mariana Carmen, Sakizlian Monika, Bezirtzoglou Eugenia, Bertesteanu Serban
University of Bucharest, Faculty of Biology, Department of Botanics and Microbiology, Ale.Portocalelor 1-3, 60101 Bucharest, Romania.
Curr Top Med Chem. 2015;15(16):1577-82. doi: 10.2174/1568026615666150414125015.
The spectacular progress of research in the nanotechnology field led to the achievement of important knowledge of materials at the atomic and molecular scale and the extent of the use of nanoparticles in the design of medical products, ecological processes, cosmetics and other biotechnological applications. One of the current focuses of the medical applications of nanotechnology is the development of new strategies to inhibit the activity of different microorganisms. The purpose of this review was to present the antimicrobial activity of metal cations in micro- and nanoparticulate forms and the dependence of this biological activity on shape, size and physico-chemical conditions.
纳米技术领域研究的显著进展,使人们在原子和分子尺度上获得了关于材料的重要知识,并极大地拓展了纳米颗粒在医疗产品设计、生态过程、化妆品及其他生物技术应用中的使用范围。纳米技术在医学应用方面当前的一个重点是开发抑制不同微生物活性的新策略。本综述的目的是介绍微米和纳米颗粒形式的金属阳离子的抗菌活性,以及这种生物活性对形状、尺寸和物理化学条件的依赖性。
