Survival of toxigenic Pasteurella multocida in aerosols and aqueous liquids

The survival of toxigenic Pasteurella multocida in air and liquids was studied to identify possible risk factors in the etiology of atrophic rhinitis. In aerosols, at low relative humidity (28%), the viability of toxigenic P. multocida 5 min after aerosolization was at least 22% of its initial value. Viability at low relative humidity declined to 8% after 45 min. Viability at high relative humidity (79%) was 69% after 5 min and declined to 2% after 45 min. Survival of toxigenic P. multocida in liquids depended on storage and constituents in the liquid. Toxigenic P. multocida became nonculturable 1 to 14 days after inoculation in water and artificial seawater, depending on the storage temperature. Toxigenic P. multocida stored at 37 degrees C could be detected for up to 6 days in pig slurry and more than 36 days in Bacto Tryptose broth and nasal lavages. However, in Bacto Tryptose broth and nasal lavages stored at 4 degrees C, P. multocida was detected for up to 14 days whereas at 15 and 37 degrees C it was detected for more than 49 days. These results suggest that aerosols and fomites can play a role in the transmission of atrophic rhinitis.

[1]  N. Chanter,et al.  Detection and distribution of toxigenic Pasteurella multocida in pig herds with different degrees of atrophic rhinitis , 1990, Veterinary Record.

[2]  C. S. Cox Airborne bacteria and viruses. , 1989, Science progress.

[3]  C. S. Cox The Aerobiological Pathway of Microorganisms , 1988, 1988.

[4]  N. Chanter,et al.  Rapid detection of toxigenic Pasteurella multocida by an agar overlay method , 1986, Veterinary Record.

[5]  R. Goodwin Apparent reinfection of enzootic-pneumonia-free pig herds: search for possible causes , 1985, Veterinary Record.

[6]  A. Mackenzie,et al.  Pathogenesis of atrophic rhinitis in pigs: a new perspective , 1984, Veterinary Record.

[7]  A. Russell,et al.  The revival of injured microbes. , 1984, Society for Applied Bacteriology symposium series.

[8]  J. Rutter Virulence of Pasteurella multocida in atrophic rhinitis of gnotobiotic pigs infected with Bordetella bronchiseptica. , 1983, Research in veterinary science.

[9]  K. Pedersen,et al.  The aetiological significance of Bordetella bronchiseptica and Pasteurella multocida in atrophic rhinitis of swine. , 1981, Nordisk veterinaermedicin.

[10]  O. P. Miniats,et al.  Experimental atrophic rhinitis in gnotobiotic pigs. , 1980, Canadian journal of comparative medicine : Revue canadienne de medecine comparee.

[11]  A. Dewaele,et al.  Intranasal infection with Bordetella bronchiseptica in gnotobiotic piglets. , 1976, Research in veterinary science.

[12]  T. Shimizu,et al.  Pathology of experimental atrophic rhinitis in swine infected with Alcaligenes bronchisepticus or Pasteurella multocida. , 1974, National Institute of Animal Health quarterly.

[13]  K. R. May The collison nebulizer: Description, performance and application , 1973 .

[14]  J. Wheelock,et al.  Milk Proteins , 1972, Nature.

[15]  T. Shimizu,et al.  Atrophic rhinitis produced by intranasal inoculation of Bordetella bronchiseptica in hysterectomy produced colostrum-deprived pigs. , 1971, The Cornell veterinarian.

[16]  C. S. Cox Aerosol survival of Escherichia coli B disseminated from the dry state. , 1970, Applied microbiology.

[17]  H. A. Druett A mobile form of the Henderson apparatus , 1969, Journal of Hygiene.

[18]  J. Bateman Long-term bactericidal effects of reduced ambient water activity: use of membrane filter support for test organisms. , 1968, American journal of epidemiology.

[19]  J. Duncan,et al.  Comparison of pathogenicity of various isolates of Bordetella bronchiseptica in young pigs. , 1967, Canadian journal of comparative medicine and veterinary science.

[20]  J. Anderson Biochemical studies of lethal processes in aerosols of Escherichia coli. , 1966, Journal of general microbiology.

[21]  J. Duncan,et al.  Pathology of experimental Bordetella bronchiseptica infection in swine: atrophic rhinitis. , 1966, American journal of veterinary research.

[22]  J. McPhee Interpretation of the Properties of Proteins in Concentrated Salt Solutions , 1958 .

[23]  M. Chatigny,et al.  The use of a rotating drum for the study of aerosols over extended periods of time. , 1958, American journal of hygiene.

[24]  C. S. Cox Aerosol Survival of Escherichia coli B Disseminated from the Dry State , 2022 .