利用荧光凝胶作为生物安全研究中病原体转移代理的机会和方法

IF 0.9 Q4 PUBLIC, ENVIRONMENTAL & OCCUPATIONAL HEALTH
Anna M. Warmka, E. Cortus, K. Janni, A. Schuft, S. Noll
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引用次数: 0

摘要

虽然荧光凝胶可能从表面蒸发,但表面的亮度不会改变。荧光凝胶显示阈值,超过该阈值,额外的凝胶密度不会增加亮度。荧光凝胶只有在潮湿的情况下才能在表面之间转移。将亮度和传质联系起来是有限制的。荧光材料是污染转移论证和研究的有效代理。摘要Glo Germ荧光材料是一种流行的教学和研究污染物进出农业转移的工具。本文的目的是:(1)量化表面上凝胶面积密度(单位面积质量)与其亮度之间的关系,以及(2)确定测量Glo Germ凝胶从一个表面转移到另一个表面的重要因素。不同密度的Glo Germ凝胶被应用于纸张、塑料和橡胶表面;每种组合重复三次。对一小时内采集的数字图像在紫外光下的亮度(单位面积的平均灰度值)进行分析。质量的变化也被测量。对于凝胶转移物镜,在纸和塑料表面上不同的湿和干荧光材料密度上放置一个固定的重量。称量凝胶团块,并在转移前后拍摄表面和受体的图像。纸表面的蒸发速度明显快于塑料表面(p = 0.0019)。当凝胶从两个表面蒸发时,亮度没有改变。对于每种材料,最初的亮度随着密度的增加而增加,直到达到一个阈值,在此之后,额外的荧光凝胶密度不会改变亮度。纸张、塑料和橡胶表面的阈值分别为0.018、0.014和0.041 g cm-2。湿凝胶转移测试结果表明,受体上的转移比源上的转移更容易量化。干燥的凝胶没有表现出可测量的转移。这项研究发现了将传质和亮度等同起来的局限性,但亮度阈值可以为成像目的提供最大的Glo Germ应用。这些研究结果支持继续研究和推广荧光材料,以减少和防止食品和动物生产中疾病或其他有害污染物的传播。关键词:生物安全,荧光,亮度,传质。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Opportunities and Methods for Using Fluorescent Gel as a Proxy for Pathogen Transfer in Biosecurity Research
Highlights While fluorescing gel may evaporate from a surface, luminance of the surface does not change. Fluorescing gel exhibits thresholds beyond which additional gel density does not increase luminance. Fluorescing gel only transfers between surfaces when it is wet. There are limits to relating luminance and mass transfer. Fluorescent material is a useful proxy for contamination transfer demonstration and research. Abstract. Glo Germ fluorescing material is a popular tool for teaching and researching contaminant transfer in and out of agriculture. The objectives of this paper were to: (1) quantify relationships between gel area density (mass per unit area) on a surface and its luminance, and (2) identify factors important in measuring Glo Germ gel transfer from one surface to another. Varying densities of Glo Germ gel were applied to paper, plastic, and rubber surfaces; each combination was replicated three times. Digital images collected over one hour were analyzed for luminance (the average gray value per unit area) under ultraviolet light. Changes in mass were also measured. For the gel transfer objective, a fixed weight was placed over varying wet and dried fluorescent material densities on paper and plastic surfaces. Gel masses were weighed, and images of the surface and receptor were taken before and after transfer. Evaporation was significantly faster (p =  0.0019) on the paper surface compared to the plastic surface. The luminance did not change as the gel evaporated from either surface. For each material, luminance initially increased with increasing density until a threshold, after which additional fluorescing gel density did not change luminance. The thresholds for paper, plastic, and rubber surfaces were 0.018, 0.014, and 0.041 g cm-2, respectively. Wet gel transfer test results suggest that transfer is easier to quantify on the receptor than the source. The dried gel did not exhibit measurable transfer. This research found limitations in equating mass transfer and luminance, but luminance threshold values can inform maximum Glo Germ application for imaging purposes. These research results support continued research and outreach with fluorescent material to reduce and prevent the spread of disease or other harmful contaminants in food and animal production. Keywords: Biosecurity, Fluorescence, Luminance, Mass transfer.
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来源期刊
Journal of Agricultural Safety and Health
Journal of Agricultural Safety and Health PUBLIC, ENVIRONMENTAL & OCCUPATIONAL HEALTH-
CiteScore
1.50
自引率
20.00%
发文量
10
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