Five different types of surgical mask of varying design and composition of natural and synthetic fibres were tested for their efficiency in vivo by means of a special test chamber. Contaminated particles escaping through or around the mask during speech by the wearer could be collected and sized. Analysis of the data showed that the gross efficiency of all the masks was high, but that some masks were distinctly better at small particle 'filtration' than others. There was a significant difference in efficiency between the best and worst masks. The best masks contained more fabric, were softer and were pleated, while the worst were stiffer, smaller and not pleated. Reusable cotton fabric masks were as effective as synthetic fabric masks when made to a good design.
Chlorhexidine did not inhibit ATPase in intact cells of Escherichia coli K12 W1317i-, even at bactericidal concentrations, and ATP hydrolysis was greatest at the highest concentration (40 mg/l), even though no net uptake of substrate occurred. Like dinitrophenol and tribrominated salicylanilide, polymyxin and chlorhexidine collapsed the membrane potential at inhibitory concentrations. Membrane disruption, and not ATPase inactivation, is considered the lethal event in chlorhexidine action.
Chlorhexidine and sulphadiazine react synergistically against strains of Pseudomonas. Proteus and Staphylococcus, with high factors of synergy. The impermeability of these strains to sulphadiazine is destroyed by low concentrations of chlorhexidine, permitting the accumulation of sulphadiazine which then inhibits protein synthesis. The combination of these drugs is bactericidal.
Chlorhexidine did not inhibit ATPase in intact cells of Escherichia coli K12 W1317i−, even at bactericidal concentrations, and ATP hydrolysis was greatest at the highest concentration (40 mg/l), even though no net uptake of substrate occurred. Like dinitrophenol and tribrominated salicylanilide, polymyxin and chlorhexidine collapsed the membrane potential at inhibitory concentrations. Membrane disruption, and not ATPase inactivation, is considered the lethal event in chlorhexidine action.
The Rappaport-Vassiliadis (RV, modification of Rappaport's) medium was superior to Muller-Kauffmann tetrathionate broth (MKT) for the enrichment and isolation of salmonellas from sewage sludge samples, either naturally contaminated or artificially inoculated with salmonella. Isolation rates for RV (42 degrees C) were higher even when MKT (43 degrees C) performance was improved by the use of brilliant green sul-phamandelate agar. Kinetic results show that the suppression of the competing flora was poorer in MKT than in RV. The use of high inoculum to medium volume ratios (e.g. 1:5000) increased the isolation rates from RV and kinetic data explain why this was so.
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