菌落的等效性模拟及标准物质研究

doi:10.3969/j.issn.1000-1158.2020.01.22

摘要
图/表
参考文献(20)
相关文章 (15)

全文: PDF (920 KB) HTML (1 KB)
输出: BibTeX | EndNote (RIS)

摘要菌落本身不稳定,不方便携带,不适合用作菌落计数器计量校准用标准物质。采用菌落的模拟图像来代表菌落,根据菌落的特点,将大小不一、分布不均的菌落图像加工成图片,等效模拟菌落总数和大小研制成模拟菌落标准物质。采用分层随机抽样的方法,进行均匀性和稳定性的研究,结果表明制备的模拟菌落标准物质具有良好的均匀性和足够的稳定性。通过人工计数和影像测量机对模拟菌落的总数、大小进行了定值并评定了不确定度。该系列标准物质便于存放、携带,已通过国家二级标准物质评审,编号为GBW(E)130586~GBW(E)130590,可用于菌落计数器的校准、分析方法评价等方面。

	服务

	把本文推荐给朋友
	加入我的书架
	加入引用管理器
	E-mail Alert
	RSS
	作者相关文章
	陈玲
	黄彦捷
	周瑾艳
	吴向垒
	黄敏晗
	许俊斌
	罗旭东

关键词 ：计量学, 菌落, 生物模拟, 标准物质, 不确定度

Abstract：The bacterial colony itself is unstable and inconvenient to carry, so it is not suitable for use as a reference material for calibration of colony counters. Colony simulation images were used to represent colonies. According to the characteristics of colonies, colony images of different sizes and uneven distribution were processed into pictures, and the total number and size of simulated colonies were simulated to simulate standard colony materials. The total number and size of the simulated bacterial colony were equivalent to the simulated bacterial colony reference materials.A stratified random sampling method was used to study the homogeneity and stability of the reference materials.The results showed that the prepared reference materials had good homogeneity and stability.Through rigorous calculation and data processing, the total number and size of the simulated bacterial colony were determined and the uncertainty was calculated.The series of reference materials could be stored and carried easily, so they were suitable for bacterial colony counter calibration and analysis method evaluation, and have been certified as the secondary national certified reference materials with the number of GBW(E) 130586~GBW(E) 130590.

Key words： metrology bacterial colony biological simulation reference material uncertainty

收稿日期: 2019-05-17 发布日期: 2019-12-19

PACS:

TB99

基金资助:广东省科技计划项目(2017A040405034,2018B020207007);广东省质量技术监督局科技项目(2018ZJ02,2016PJ15)

通讯作者: 黄彦捷(1990-),福建厦门人,广东省计量科学研究院工程师,研究方向为生物计量与荧光分析。 Email:yjhuang@scm.com.cn E-mail: yjhuang@scm.com.cn

作者简介: 陈玲(1978-),女,山东郯城人,广东省计量科学研究院正高级工程师,研究方向为化学计量与标准物质。 Email:13924176492@163.com

引用本文:

陈玲,黄彦捷,周瑾艳,吴向垒,黄敏晗,许俊斌,罗旭东. 菌落的等效性模拟及标准物质研究[J]. 计量学报, 2020, 41(1): 121-128.
CHEN Ling,HUANG Yan-jie,ZHOU Jin-yan,WU Xiang-lei,HUANG Min-han,XU Jun-bin,LUO Xu-dong. Equivalent Simulation and Reference Material of the Bacterial Colonies. Acta Metrologica Sinica, 2020, 41(1): 121-128.

链接本文:

http://jlxb.china-csm.org:81/Jwk_jlxb/CN/10.3969/j.issn.1000-1158.2020.01.22 或 http://jlxb.china-csm.org:81/Jwk_jlxb/CN/Y2020/V41/I1/121

［1］隋志伟, 刘晓夏, 王晶, 等.粘质沙雷氏菌测量方法研究［J］.计量学报, 2018,39(4):588-592.
Sui Z W, Liu X X, Wang J. et al. Study on Measurement Method of Serratia Marcescens［J］.Acta Metrologica Sinica, 2018, 39(4): 588-592.
［2］刘明爽, 李婷婷, 马艳, 等. 真空包装鲈鱼片在冷藏与微冻贮藏过程中的新鲜度评价［J］. 食品科学, 2016, 37(2): 210-213.
Liu M S, Li T T, Ma Y, et al. Freshness Evaluation of Vacuum Packaged Perch Fillets during Refrigeration and Partial Freezing［J］.Food Science, 2016, 37(2): 210-213.
［3］卢行安, 顾其芳, 袁宝君, 等. AOAC Petrifilm~(TM)菌落总数测试片法与食品中菌落总数测定国标方法的比较研究［J］. 中国食品学报, 2011, 11(3): 164-167.
Lu X A, Gu Q F, Yuan B G, et al. The Comparing Study of AOAC Petrifilm~(TM) Aerobic Count Plate Methods with GB Aerobic Plate Count in Foods［J］. Journal of Chinese Institute of Food Science and Technology, 2011, 11(3): 164-167.
［4］Loss G, Apprich S, Kneifel W, et al. Short communication: Appropriate and alternative methods to determine viable bacterial counts in cow milk samples［J］. Journal of Dairy Science, 2012, 95(6): 2916-2918.
［5］刘学铭, 方少钦, 唐道帮, 等. 我国熟肉制品微生物安全现状与控制技术［J］. 现代食品科技, 2012, 28(1): 99-103.
Liu X M, Fang S Q, Tang D B, et al. Microbiological Safety and Control Technology of Cooked Meat Products in China［J］. Modern Food Science and Technology, 2012, 28(1): 99-103.
［6］杨宁, 张荣标, 赵雨琦, 等. 基于荧光显微拉曼光谱的细菌快速解耦检测方法［J］. 仪器仪表学报, 2012, 33(2): 435-441.
Yang N, Zhang R B, Zhao Y Q, et al. Bacteria fast decoupling detection based on Raman spectra and fluorescence microscopy［J］. Chinese Journal of Scientific Instrument, 2012, 33(2): 435-441.
［7］陶斐斐, 王伟, 李永玉, 等. 冷却猪肉表面菌落总数的快速无损检测方法研究［J］. 光谱学与光谱分析, 2010, 30(12): 3405-3409.
Tao F F, Wang W, Li Y Y, et al. A Rapid Nondestructive Measurement Method for Assessing the Total Plate Count on Chilled Pork Surface［J］. Spectroscopy and Spectral Analysis, 2010, 30(12): 3405-3409.
［8］夏宏丽. 使用标准物质评定食品菌落总数的不确定度［J］. 中国卫生检验杂志, 2012,(6): 1450-1451.
Xia H L. Evaluation of Uncertainty of Total Colony Number in Food by Reference Materials［J］. Chinese Journal of Health Laboratory Technology, 2012, (6): 1450-1451.
［9］王海华, 兰茜. 能力验证菌落总数测定结果不确定度的评定［J］. 食品安全质量检测学报, 2015,(6): 2352-2355.
Wang H H, Lan Q, Uncertainty Evaluation of Aerobic Plate Count by Proficiency Testing［J］. Journal of Food Safety and Quality, 2015, (6): 2352-2355.
［10］Veld P H I, Havelaar A H, Strijp-Lockefeer N G W M V. The certification of a reference material for the evaluation of methods for the enumeration of Bacillus cereus［J］. Journal of Applied Microbiology, 2010, 86(2): 266-274.
［11］白凤翎. 国内外食品卫生微生物标准菌落总数的比较研究［J］. 食品科技, 2008, 33(3): 197-199.
Bai F L. Study on ABC of microbiological criteria of food hygiene between national and abroad［J］. Food Science and Technology, 2008, 33(3): 197-199.
［12］陈敏璠, 傅博强, 林婧, 等. 阴沟肠杆菌定量标准物质的研制［J］. 计量学报, 2017, 38(5): 527-531.
Chen M F, Fu B Q, Lin J. et al. Development of Quantitative Reference Material of Enterobacter Cloacae［J］. Acta Metrologica Sinica, 2017, 38(5): 527-531.
［13］吴玉峰, 丰丽艳. 全自动菌落分析仪计数结果的初步探讨［J］. 环境卫生学杂志, 2013, (5): 420-421.
Wu Y F, Feng L Y. Preliminary Study on the Results of an Automatic Colony Counts Analyzer［J］. Journal of Environmental Hygiene, 2013, (5): 420-421.
［14］张春晨, 杨更发.分值计算法应用于培养基质量评价及菌落计数的质控［J］.预防医学情报杂志, 1999,(2): 109-110.
Zhang C C, Yang G F. Application of Score Calculating Method in Quality Evaluation of Culture Medium and Quality Control of Colony Count［J］. Journal of Preventive Medicine Information, 1999,(2): 109-110.
［15］蒋峰, 罗黎明, 陈建军, 等. 基于改进的Hough算法的细胞破碎智能监测计数系统［J］. 计量学报, 2018, 39(6): 902-907.
Jiang F, Luo L M, Chen J J, et al. Research of Cell Lysis Intelligent Monitoring and Counting System Based on the Improved Hough Algorithm［J］. Acta Metrologica Sinica, 2018, 39(6): 902-907.
［16］Viitanen H, Vinha J, Salminen K, et al.Moisture and Bio-deterioration Risk of Building Materials and Structures［J］. Journal of Building Physics, 2010, 33(3): 201-224.
［17］GB 4789.2—2016食品微生物菌落总数的测定［S］. 2016.
［18］JJF 1006—1994 一级标准物质技术规范［S］.1994.
［19］ISO Guide 34 General requirements for the competence of reference material producers［S］.2009.
［20］ISO Guide 35 Reference materials-General and statistical principles for certification［S］.2006.