Cox C S, Derr J S, Flurie E G, Roderick R C
Appl Microbiol. 1970 Dec;20(6):927-34. doi: 10.1128/am.20.6.927-934.1970.
An experimental technique is presented for studying aerosols generated from lyophilized bacteria by using Escherichia coli B, Bacillus subtilis var. niger, Enterobacter aerogenes, and Pasteurella tularensis. An aerosol generator capable of creating fine particle aerosols of small quantities (10 mg) of lyophilized powder under controlled conditions of exposure to the atmosphere is described. The physical properties of the aerosols are investigated as to the distribution of number of aerosol particles with particle size as well as to the distribution of number of bacteria with particle size. Biologically unstable vegetative cells were quantitated physically by using (14)C and Europium chelate stain as tracers, whereas the stable heat-shocked B. subtilis spores were assayed biologically. The physical persistence of the lyophilized B. subtilis aerosol is investigated as a function of size of spore-containing particles. The experimental result that physical persistence of the aerosol in a closed aerosol chamber increases as particle size is decreased is satisfactorily explained on the bases of electrostatic, gravitational, inertial, and diffusion forces operating to remove particles from the particular aerosol system. The net effect of these various forces is to provide, after a short time interval in the system (about 2 min), an aerosol of fine particles with enhanced physical stability. The dependence of physical stability of the aerosol on the species of organism and the nature of the suspending medium for lyophilization is indicated. Also, limitations and general applicability of both the technique and results are discussed.
本文介绍了一种实验技术,用于研究由大肠杆菌B、枯草芽孢杆菌黑色变种、产气肠杆菌和土拉弗朗西斯菌冻干细菌产生的气溶胶。描述了一种气溶胶发生器,它能够在受控的大气暴露条件下,产生少量(10毫克)冻干粉末的细颗粒气溶胶。研究了气溶胶的物理性质,包括气溶胶颗粒数量随粒径的分布以及细菌数量随粒径的分布。使用(14)C和铕螯合物染色作为示踪剂,对生物不稳定的营养细胞进行物理定量,而对稳定的热休克枯草芽孢杆菌孢子进行生物学测定。研究了冻干枯草芽孢杆菌气溶胶的物理持久性与含孢子颗粒大小的函数关系。基于作用于从特定气溶胶系统中去除颗粒的静电、重力、惯性和扩散力,令人满意地解释了气溶胶在封闭气溶胶室中的物理持久性随颗粒尺寸减小而增加的实验结果。在系统中经过短时间间隔(约2分钟)后,这些各种力的净效应是提供一种具有增强物理稳定性的细颗粒气溶胶。指出了气溶胶物理稳定性对生物体种类和冻干悬浮介质性质的依赖性。此外,还讨论了该技术和结果的局限性及普遍适用性。