Airborne excretion of foot-and-mouth disease virus

Sellers, R. F.; Parker, John

doi:10.1017/s0022172400042121

Cited by 147 publications

(127 citation statements)

References 11 publications

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“…the development of visible lesions outside the inoculation site)-the time when FMDV skin concentrations peak. Emissions then persist for several days [1,5,7,48,49]. While this may generally be the case, airborne FMD has occasionally been observed to begin on the day before clinical signs appear or alternatively to begin as much as several days after the development of clinically evident lesions.…”

Section: Providing Context To the Hypothesized Foot And Mouth Diseasementioning

confidence: 97%

“…The rupture of these macroscopic skin lesions, with the subsequent release of FMDV-infected cell cytoplasm onto the surface of the skin followed by exfoliation of the infected skin cells, is one pathway whereby FMDV could become aerosolized 7 (i.e. FMDV 'rafting' on the outside of airborne skin cells) [37,42,45].…”

Section: Estimating the Shedding Rate Of Foot And Mouth Disease Virusmentioning

confidence: 99%

“…However, a general association of FMDV aerosol emissions with clinical skin lesion development is particularly strong in the swine experiments in which infection occurred via airborne or direct contact. 10 In these experiments, most animals emitted no airborne virus prior to skin lesion development and no airborne emissions were reported more than 1 day prior to the development of the clinical signs of FMD [5,7,50].…”

Section: Providing Context To the Hypothesized Foot And Mouth Diseasementioning

confidence: 99%

“…Early researchers did previously raise the possibility that airborne FMDV-infected skin cells might be important in disease transmission [6][7][8]; however, this possibility was never systematically investigated. In contrast, respiratory mucosal epithelial cells are known to be a primary site of initial infection (pharynx), a main virus amplification site (mouth) and the site of persistent infection in carrier ruminants (pharynx) [1,9].…”

Section: Introductionmentioning

confidence: 99%

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Skin as a potential source of infectious foot and mouth disease aerosols

Dillon

2011

Proc. R. Soc. B.

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This review examines whether exfoliated, virus-infected animal skin cells could be an important source of infectious foot and mouth disease virus (FMDV) aerosols. Infectious material rafting on skin cell aerosols is an established means of transmitting other diseases. The evidence for a similar mechanism for FMDV is: (i) FMDV is trophic for animal skin and FMDV epidermis titres are high, even in macroscopically normal skin; (ii) estimates for FMDV skin cell aerosol emissions appear consistent with measured aerosol emission rates and are orders of magnitude larger than the minimum infectious dose; (iii) the timing of infectious FMDV aerosol emissions is consistent with the timing of high FMDV skin concentrations; (iv) measured FMDV aerosol sizes are consistent with skin cell aerosols; and (v) FMDV stability in natural aerosols is consistent with that expected for skin cell aerosols. While these findings support the hypothesis, this review is insufficient, in and of itself, to prove the hypothesis and specific follow-on experiments are proposed. If this hypothesis is validated, (i) new FMDV detection, management and decontamination approaches could be developed and (ii) the relevance of skin cells to the spread of viral disease may need to be reassessed as skin cells may protect viruses against otherwise adverse environmental conditions.

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Section: Providing Context To the Hypothesized Foot And Mouth Diseasementioning

confidence: 97%

Section: Estimating the Shedding Rate Of Foot And Mouth Disease Virusmentioning

confidence: 99%

Section: Providing Context To the Hypothesized Foot And Mouth Diseasementioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Skin as a potential source of infectious foot and mouth disease aerosols

Dillon

2011

Proc. R. Soc. B.

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“…Earlier we presented a working hypothesis for the pathogenesis of FMD in which the upper respiratory tract was considered as the portal of entry for the virus. The present results require revision of this hypothesis to include the role of the lung, particularly because a substantial amount of evidence has established the importance of airborne transmission of FMD (Donaldson, Herniman, Parker & Sellers, 1970;Hyslop, 1965;Sellers & Parker, 1969, Sellers, Donaldson & Herniman, 1970Sellers et al 1973). FMD-infected animals generate aerosols with various droplet sizes (Sellers & Parker, 1969), and recipient animals will be exposed to all of them.…”

Section: Discussionmentioning

confidence: 77%

Pathogenesis of foot-and-mouth disease: the lung as an additional portal of entry of the virus

Sutmöller

McVicar

1976

J. Hyg.

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'Mention of a trademark or a proprietary product does not constitute a guarantee or warranty of the product by the United States Department of Agriculture, and does not imply its approval to the exclusion of other products that may also be suitable.' SUMMARY Donor cattle infected with foot and mouth disease (FMD) virus subtype 01 were used to expose experimental cattle. The pharyngeal virus growth and viraemia patterns after contact exposure were quite different from those obtained after intranasal inoculation and suggested that the lower respiratory tract might provide an additional portal of entry for the virus. A tracheotomy was performed on experimental cattle to let the respiration bypass the pharynx, followed by exposure to FMD virus by different routes. The results confirmed that FMD virus can enter the bloodstream via the lung, followed by haematogenic infection of the pharynx and other replication sites simultaneously. These observations led to further experiments in which the intravenous route of infection was used to study the interaction of virus growth in the phayrnx, in other sites, and in viraemia.

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