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Studies of the loss of viability of bacterial aerosols*: III. Factors affecting death rates of certain non-pathogens

Published online by Cambridge University Press:  15 May 2009

Ronald M. Ferry
Affiliation:
Department of Bacteriology and Immunology, Harvard Medical School, Boston, Massachusetts
William F. Brown
Affiliation:
Department of Bacteriology and Immunology, Harvard Medical School, Boston, Massachusetts
Edwin B. Damon
Affiliation:
Department of Bacteriology and Immunology, Harvard Medical School, Boston, Massachusetts
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1. Additional quantitative studies of the survival of micro-organisms in aerosols are reported.

2. Substitution of nitrogen for oxygen in the ambient medium decreases k′2, the rate of secondary loss of viability of M. candidus, Esch. coli and S. marcescens, by 30–50%.

3. The rate of primary decay (k′1) of Esch. coli does not appear to be affected by a similar change of atmosphere.

4. The rate of secondary decay, k′2, of M. candidus appears to increase two-to three-fold for 10°C. increments in temperature.

5. Treatment of suspensions of Esch. coli with petroleum ether alone or containing lipid material increases k′1 in aerosols generated from such suspensions.

6. Treatment of Myco. phlei with petroleum ether appears to lower resistance to subsequent sonic irradiation.

These observations are consistent with the hypothesis that differences in the physical and chemical structure of micro-organisms are reflected in constants k′1, k′2 and b.

We gratefully acknowledge the effective interest of two former assistants, T. Grant Maple and Eugene Mills, as well as the careful, effective, and conscientious work of our technical assistants, Ann Barr, Nora Galins, Cynthia Hartwig, Grace C. Leigh, Elizabeth Neidhardt, Paulette Slaney and Martha Szerslip, who have at different times helped secure the data presented here. Mrs Joseph J. Ecker deserves special thanks for care in the preparation of the manuscript.

Type
Research Article
Copyright
Copyright © Cambridge University Press 1958

References

Archer, R. J. & La, Mer V. K. (1955). The evaporation of water through fatty acid monolayers. J. Phys. Chem. 59, 200.CrossRefGoogle Scholar
Asselineau, J. (1951). Acides Mycoliques et Cires de Bacille Tuberculeux, 187 pp. Paris: Arnette, France.Google Scholar
Bloch, H. (1950). Studies on the virulence of Tubercle bacilli isolation and biological properties of a constituent of virulent organisms. J. exp. Med. 91, 197.CrossRefGoogle ScholarPubMed
Ferry, R. M. & Maple, T. G. (1954). Studies of the loss of viability of bacterial aerosols, I. M. Candidus. J. infect. Dis. 95, 142.CrossRefGoogle ScholarPubMed
Ferry, R. M., Brown, W. F. & Damon, E. B. (1958). Studies of the loss of viability of stored bacterial aerosols. II. Death rates of several non-pathogenic organisms in relation to biological and structural characteristics. J. Hyg., Camb., 56, 125.CrossRefGoogle ScholarPubMed
Kethley, T. W., Cown, W. B. & Fincher, E. L. (1957). The nature and composition of experimental bacterial aerosols. Appl. microbiol. 5, no. 1, 1.CrossRefGoogle Scholar
Sack, L. C. Preliminary studies on the effect of bacterial surface films of N-tetradecanol and N-octadecanol on the behaviour of Escherichia coli. (Undergraduate honors thesis, 1956, Harvard College, Cambridge, Massachusetts. Unpublished.)Google Scholar