抽象的

Quantitative and Qualitative Assessment Methods for Biofilm Growth: A Mini-review

Christina Wilson, Rachel Lukowicz, Stefan Merchant, Helena Valquier-Flynn, Jeniffer Caballero, Jasmin Sandoval, Macduff Okuom, Christopher Huber, Tessa Durham Brooks, Erin Wilson, Barbara Clement, Christopher D Wentworth and Andrea E Holmes

Biofilms are microbial communities attached to a surface and embedded in an extracellular polymeric substance which provides for the protection, stability and nutrients of the various bacterial species indwelling. These communities can build up in a variety of different environments from industrial equipment to medical devices resulting in damage, loss of productivity and disease. They also have great potential for economic and societal benefits as bioremediation agents and renewable energy sources. The great potential benefits and threats of biofilms has encouraged researchers across disciplines to study biofilm characteristics and antibiofilm strategies resulting in chemists, physicists, material scientists, and engineers, to develop beneficial biofilm applications and prevention methods. The ultimate outcome is a wealth of knowledge and innovative technology. However, without extensive formal training in microbes and biofilm research, these scientists find a daunting array of established techniques for growing, quantifying and characterizing biofilms while trying to design experiments and develop innovative laboratory protocols. This minireview focuses on enriching interdisciplinary efforts and understanding by overviewing a variety of quantitative and qualitative biofilm characterization methods to assist the novice researcher in assay selection. This review consists of four parts. Part 1 is a brief overview of biofilms and the unique properties that demand a highly interdisciplinary approach. Part 2 describes the classical quantification techniques including colony forming unit (CFU) counting and crystal violet staining, but also introduces some modern methods including ATP bioluminescence and quartz crystal microbalance. Part 3 focuses on the characterization of biofilm morphology and chemistry including scanning electron microscopy and spectroscopic methods. Finally, Part 4 illustrates the use of software, including ImageJ and predictive modeling platforms, for biofilm analysis. Each section highlights the most common methods, including literature references, to help novice biofilm researchers make choices which commensurate with their study goals, budget and available equipment.

免责声明: 此摘要通过人工智能工具翻译,尚未经过审核或验证

索引于

化学文摘社 (CAS)
谷歌学术
打开 J 门
学术钥匙
研究圣经
全球影响因子 (GIF)
引用因子
宇宙IF
电子期刊图书馆
参考搜索
哈姆达大学
世界科学期刊目录
印度科学网
学者指导
普布隆斯
国际创新期刊影响因子(IIJIF)
国际组织研究所 (I2OR)
宇宙

查看更多