Critical analysis of methods to determine growth, control and analysis of biofilms for potential non-submerged antibiofilm surfaces and coatings

IF 5.9 Q1 MICROBIOLOGY Biofilm Pub Date : 2024-02-27 DOI:10.1016/j.bioflm.2024.100187
J. Redfern , A.J. Cunliffe , D.M. Goeres , N.F. Azevedo , J. Verran
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Abstract

The potential uses for antibiofilm surfaces reach across different sectors with significant resultant economic, societal and health impact. For those interested in using antibiofilm surfaces in the built environment, it is important that efficacy testing methods are relevant, reproducible and standardised where possible, to ensure data outputs are applicable to end-use, and comparable across the literature. Using pre-defined keywords, a review of literature reporting on antimicrobial surfaces (78 articles), within which a potential application was described as non-submerged/non-medical surface or coating with antibiofilm action, was undertaken. The most used methods utilized the growth of biofilm in submerged and static systems. Quantification varied (from most to least commonly used) across colony forming unit counts, non-microscopy fluorescence or spectroscopy, microscopy analysis, direct agar-contact, sequencing, and ELISA. Selection of growth media, microbial species, and incubation temperature also varied. In many cases, definitions of biofilm and attempts to quantify antibiofilm activity were absent or vague. Assessing a surface after biofilm recovery or assessing potential regrowth of a biofilm after initial analysis was almost entirely absent. It is clear the field would benefit from widely agreed and adopted approaches or guidance on how to select and incorporate end-use specific conditions, alongside minimum reporting guidelines may benefit the literature.

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对潜在非浸没式抗生物膜表面和涂层的生物膜生长、控制和分析方法进行批判性分析
抗生物膜表面的潜在用途遍及不同领域,对经济、社会和健康产生重大影响。对于那些有意在建筑环境中使用抗生物膜表面的人来说,重要的是功效测试方法应具有相关性、可重复性并尽可能标准化,以确保数据输出适用于最终用途,并可在各种文献中进行比较。利用预先确定的关键词,对有关抗菌表面的文献(78 篇)进行了审查,其中潜在的应用被描述为具有抗生物膜作用的非浸没/非医用表面或涂层。使用最多的方法是利用浸没和静态系统中生物膜的生长。定量方法各不相同(从最常用到最不常用),包括菌落形成单位计数、非显微荧光或光谱、显微分析、直接琼脂接触、测序和 ELISA。对生长培养基、微生物种类和培养温度的选择也各不相同。在许多情况下,生物膜的定义和量化抗生物膜活性的尝试都不存在或含糊不清。几乎完全没有对生物膜恢复后的表面进行评估,也没有对初步分析后生物膜的潜在再生进行评估。显然,该领域将受益于广泛认可和采用的方法,或关于如何选择和纳入最终用途特定条件的指导,以及最低报告准则,这可能会对文献有所裨益。
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来源期刊
Biofilm
Biofilm MICROBIOLOGY-
CiteScore
7.50
自引率
1.50%
发文量
30
审稿时长
57 days
期刊介绍:
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