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Information on which to base assessments of risk from environments contaminated with anthrax spores

Published online by Cambridge University Press:  19 October 2009

A. Watson  and
D. Keir
A. Watson
Affiliation:
Environmental Risk Assessment Department, AEA Technology Consultancy Services, Thomson House, Risley, Warrington, Cheshire WA3 6AT
D. Keir*
Affiliation:
Environmental Risk Assessment Department, AEA Technology Consultancy Services, Thomson House, Risley, Warrington, Cheshire WA3 6AT
*
*Author for correspondence and requests for reprints.
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Summary

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Although there has been a considerable amount of research conducted into Bacillus anthracis, the causative agent of anthrax, the data are widely disseminated in the scientific literature and are therefore not always easy to assimilate. In view of continuing concern about potential anthrax contamination in environmental materials and sites, this review brings together the currently available information relating to the health hazards from B. anthracis. The relevance of the available information for risk assessment purposes is assessed.

Type
Research Article
Information
Epidemiology & Infection , Volume 113 , Issue 3 , December 1994 , pp. 479 - 490
Copyright
Copyright © Cambridge University Press 1994

References

1.Ll, Leive,Bd, Davis. Cell envelope; spores. In: Microbiology, 3rd ed.Philadelphia: Harper & Row, 1980: 71110.Google Scholar
2.Hunter, L, Corbett, W, Grindem, C. Zoonosis updated: anthrax. J Am Vet Med Assoc 1989; 8: 1028–31.Google Scholar
3.Bohm, R. Resistance, survival, sterilization and disinfection of spores of Bacillus anthracis. Salisbury Med Bull 1990; 68, Special Suppl: 99101.Google Scholar
4.PS, Brachman. Inhalation anthrax. In: Ja, Merchant, ed. Occupational respiratory diseases. US Department Health and Human Services, 1986.Google Scholar
5.Rf, Boyd, Jj, Mar. The Gram positive sporeforming bacilli. In: Medical microbiology, 1st ed.Boston: Little, Brown & Company, 1980: 322–35.Google Scholar
6.Pcb, Turnbull, Ra, Hutson, Mj, Ward et al. Bacillus anlhracis but not always anthrax. J Appl Bacteriol 1992; 72: 21–8.Google Scholar
7.Me, Hugh-Jones, Pcb, Turnbull, Mn, Jones, Ra, Hutson, Cp, Quinn, Jm, Kramer. Reexamination of the mineral supplement associated with a 1972 anthrax outbreak. Vet Rec 1991; 128: 615–6.Google Scholar
8.Hn, Glassman. Discussion. Bacteriol Rev 1966; 30: 657–9.Google Scholar
9.Rw, Titball, Rj, Manchee. Factors affecting the germination of spores of Bacillus anthracis. J ApplBact 1978; 62: 269–73.Google Scholar
10.Ab, Christie. Anthrax. In: Infectious diseases: epidemiology and clinical practice. 4th ed.London: Churchill Livingstone, 1987: 9831003.Google Scholar
11.Ps, Brachman, Sa, Plotkin, Fh, Bumford, Atchison, M. An epidemic of inhalation anthrax: the first in the twentieth century. II. Epidemiology. Am J Hyg 1960; 72: 623.Google Scholar
12.Ps, Brachman, Js, Pagano, Ws, Albrink. Two cases of inhalation anthrax, one associated with sarcoidosis. New Eng J Med 1961; 265: 203–8.Google Scholar
13.Rj, Manchee, Mg, Broster, Aj, Stagg, Se, Hibbs, Patience, B. Out of Gruinard Island. Salisbury Med Bull 1990; 68, Special Suppl: 1718.Google Scholar
14.Hunter, D. Occupational diseases due to infections. In: The diseases of occupations. 5th ed.London: Hodder & Stoughton, 1975: 671727.Google Scholar
15.Pcb, Turnbull, Fa, Stuart, Nj, Barrett, Moiling, J. Anthrax in the UK. Salisbury Med Bull 1990; 68, Special Suppl: 45.Google Scholar
16.Ps, Brachman, Af, Kaufman, Fg, Dalldorf. Industrial inhalation anthrax. Bacteriol Rev 1966; 30: 640–7.Google Scholar
17.Fa, Abramova, Lm, Grinberg, Ov, Yampolskaya, Dh, Walker. Pathology of inhalation anthrax in 42 cases of the Sverdlovsk outbreak of 1979. Proc Nat Acad Sci USA 1993; 90: 2291–4.Google Scholar
18.Jb, Enticknap, Ns, Galbraith, Ajh, Tomlinson, Elias-Jones TF. Pulmonary anthrax caused by contaminated sacks. Br J Indust Med 1968; 25: 72–4.Google Scholar
19.Pcb, Turnbull. Anthrax. In: Principles of bacteriology, virology and immunity, 8th ed.London: Arnold, 1990: 365–79.Google Scholar
20.Cm, Dahlgren, Lm, Buchanan, Hm, Decker, Sw, Freed, Cr, Phillips, Ps, Brachman. Bacillus anthracis aerosols in goat hair processing mills. Am J Hyg 1960; 72: 623.Google Scholar
21.Ea, Carr, Row, R. Recovery of Bacillus anthracis from the nose to the throat of apparently health workers. J Infect Dis 1957; 100: 109–71.Google Scholar
22.Pienaar, U. de V.Epidemiology of anthrax in wild animals and the control of anthrax epizootics in the Kruger National Park, South Africa. Fed Proc 1967; 26: 1496–501.Google ScholarPubMed
23.Re, Lincoln, Js, Walker, Klein, F, T, Rosenwald A., Wi, Jones. Value of field data for extrapolation in anthrax. Fed Proc 1967; 26: 1558–62.Google Scholar
24.Pcb, Turnbull, Mg, Broster, Ja, Carman, Rj, Manchee, Melling, J. Development of antibodies to protective antigen and lethal factor components of anthrax toxin in humans and guinea pigs and their relevance to protective immunity. Infect Immun 1986; 52: 356–63.Google Scholar
25.Sl, Welkos, Tj, Keener, Ph, Gibbs. Differences in susceptibility of in-bred mice to Bacillus anthracis. Infect Immun 1986; 51: 795800.Google Scholar
26.Ha, Druett, Dw, Henderson, Packman, L, Peacock, S. Studies on respiratory infection. I. The influence of particle size on respiratory infection with anthrax spores. J Hyg 1953; 51: 359–71.Google Scholar
27.Wr, Parkes. Disorders caused by organic agents. In: Occupational lung disorders, 2nd ed.London: Butterworths, 1982: 359414.Google Scholar
28.Hw, Whitford. Anthrax. In: H, Stoenner, Kaplan, W, Torten, M, eds. CRC Handbook series in zoonoses. Section A. Bacterial, rickettsial and mycotic diseases. Florida: CRC Press Inc, 1979: 3166.Google Scholar
29.Ga, Young, Mr, Zelle, Re, Lincoln. Respiratory pathogenicity of Bacillus anthracis spores. 1. Methods of study and observations on pathogenesis. J Infect Dis 1946; 79: 233–46.Google Scholar
30.Ws, Albrink, Rj, Goodlow. Experimental inhalation anthrax in the chimpanzee. Am J Pathol 1959; 35: 1055–65.Google Scholar
31.Al, Fernelius, Ia, DeArmon, Klein, F, Re, Lincoln. Comparison of graded and quantal virulence tests for Bacillus anthracis spores. J Bacteriol 1960; 79: 504600.Google Scholar
32.Ng, Roth, Ia, DeArmon, Dh, Lively. Survival time as a rapid method of determining virulence with Bacillus anthracis. J Bacteriol 1956; 72: 666–72.Google Scholar
33.Ia, DeArmon, Klein, F, Re, Lincoln, Bg, Mahlandt, Al, Fernelius. Immunological studies of anthrax. I. An index to determine quantitative immunization. J Immunol 1961; 87: 233–9.Google Scholar