Margareta Edebo scite author profile

The dynamics of microbial growth in metal-working fluids (MWF) and the effect of the addition of biocides were studied in large fluid systems, in this case, one central tank which holds 150 m3. In this system, populations of Pseudomonas pseudoalcaligenes (>108 CFU/ml) were sustained for a year, although large quantities of biocides were added. Quantitation of 3-OH lauric acid, a marker for many Pseudomonas spp., by gas chromatography indicated that the bacterial biomass exceeded the viable counts by approximately 15 times. Fungi were grown on several occasions, the dominating genera being Fusarium and Candida. Soon after the old MWF was removed and the tank was provided with fresh MWF, which consisted of an emulsion of mineral oil in water, there was a massive growth of P. pseudoalcaligenes that reached levels of >108 bacteria per ml. Initially, only low concentrations of other species were found for some weeks. After this period, different enterobacteria and other gram-negative rods often appeared at high concentrations (107 and 108 bacteria per ml, respectively). Bacteria identified as P. pseudoalcaligenes showed great variation with respect to colony morphology and a certain heterogeneity with respect to biochemical characteristics. Certain bacterial species grew as microcolonies on metal strips immersed in the circulating MWF, but P. pseudoalcaligenes was not recovered from this habitat. The total bacterial count in the air surrounding the machines in the metal-working shop showed an inverse relation to increasing distance from the machine. The concentration of bacteria in the air varied because of the number of machines in use, temperature, and humidity. Peak values of more than 105 CFU/m3 of air were recorded. The workshop data combined with experimental studies indicated that the biocide concentrations employed in the MWF were too low to prevent microbial growth of Pseudomonas species, in particular. Stable growth of Pseudomonas spp. facilitated the establishment of other bacteria, such as enterobacteria. New strategies are in demand to prevent microbes from growing in MWF.

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Partition of Salmonella typhimurium in a Two-Polymer Aqueous Phase System in Relation to Liability to Phagocytosis

Stendahl

Tagesson

Edebo

1973

Infect Immun

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Analysis of the partition in a two-polymer phase system of Salmonella typhimurium R mutants with different susceptibility to phagocytosis distinguished between the mutants. Close to 80% of the R mutants least resistant to phagocytosis accumulated in the dextran-rich phase, whereas more phagocytosisresistant mutants showed higher affinity for the interface and the polyethylene glycol-rich top phase. By growing the uridine diphosphate (pyro)-gal-4-epimeraseless mutant LT2-M1 in the presence of D-galactose for different periods of time, two well-defined peaks were obtained in counter-current distribution analysis with an aqueous two-polymer phase system revealing a heterogeneous population in the culture. One peak was located at a site characteristic of R bacteria, the other at the site of S bacteria. As growth proceeded, more bacteria transferred from the R-type to the S-type peak. Within each peak, a gradual increase in resistance to phagocytosis by rabbit polymorphonuclear cells occurred with increasing length of growth in D-galactose.

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The Influence of Inorganic Ions on the Heat Stability of a Thermophilic Bacteriophage

Ljunger

Edebo

1972

Physiologia Plantarum

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A thermophilic bacteriophage was isolated from soil. Heat inactivation of this phage, suspended in tryptone starch broth at 65°C and 70°C, was found to be a monomolecular reaction. The phage was more heat stable in tryptone broth than in tris buffer. When the tris buffer was supplemented with calcium or magnesium ions, the survival percentage increased from 0.0 to 18.0 after two hours of heating at 65°C. The addition of sodium or potassium ions to the tris buffer had no significant effect. Equimolar solutions of calcium and magnesium chloride had the same effect on the heat stability of the phage. Maximum stability was attained in 2.5 mM solutions of these salts, and a further increase in the concentration up to 10.0 mM did not increase the percentage of surviving phages.

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Aseptic and antiseptic protective mechanisms against pathogenic bacteria

Edebo

Mattsby‐Baltzer

1987

Clinical Immunology Newsletter

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Margareta Edebo

Microbial growth and accumulation in industrial metal-working fluids

Partition of Salmonella typhimurium in a Two-Polymer Aqueous Phase System in Relation to Liability to Phagocytosis

The Influence of Inorganic Ions on the Heat Stability of a Thermophilic Bacteriophage

Aseptic and antiseptic protective mechanisms against pathogenic bacteria

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