Transmissibility of the Monkeypox Virus Clades via Respiratory Transmission: Investigation Using the Prairie Dog-Monkeypox Virus Challenge System

Monkeypox virus (MPXV) is endemic within Africa where it sporadically is reported to cause outbreaks of human disease. In 2003, an outbreak of human MPXV occurred in the US after the importation of infected African rodents. Since the eradication of smallpox (caused by an orthopoxvirus (OPXV) related to MPXV) and cessation of routine smallpox vaccination (with the live OPXV vaccinia), there is an increasing population of people susceptible to OPXV diseases. Previous studies have shown that the prairie dog MPXV model is a functional animal model for the study of systemic human OPXV illness. Studies with this model have demonstrated that infected animals are able to transmit the virus to naive animals through multiple routes of exposure causing subsequent infection, but were not able to prove that infected animals could transmit the virus exclusively via the respiratory route. Herein we used the model system to evaluate the hypothesis that the Congo Basin clade of MPXV is more easily transmitted, via respiratory route, than the West African clade. Using a small number of test animals, we show that transmission of viruses from each of the MPXV clade was minimal via respiratory transmission. However, transmissibility of the Congo Basin clade was slightly greater than West African MXPV clade (16.7% and 0% respectively). Based on these findings, respiratory transmission appears to be less efficient than those of previous studies assessing contact as a mechanism of transmission within the prairie dog MPXV animal model.

[1]  I. Damon,et al.  SEROLOGIC EVIDENCE FOR CIRCULATING ORTHOPOXVIRUSES IN PERIDOMESTIC RODENTS FROM RURAL UGANDA , 2013, Journal of wildlife diseases.

[2]  Jonathan V. Szalajda,et al.  Dispersion and Exposure to a Cough-Generated Aerosol in a Simulated Medical Examination Room , 2012, Journal of occupational and environmental hygiene.

[3]  M. Reynolds,et al.  Factors affecting the likelihood of monkeypox's emergence and spread in the post-smallpox era , 2012, Current opinion in virology.

[4]  I. Damon,et al.  Monkeypox Disease Transmission in an Experimental Setting: Prairie Dog Animal Model , 2011, PloS one.

[5]  R. Jordan,et al.  Effective Antiviral Treatment of Systemic Orthopoxvirus Disease: ST-246 Treatment of Prairie Dogs Infected with Monkeypox Virus , 2011, Journal of Virology.

[6]  I. Damon,et al.  Establishment of the Black-Tailed Prairie Dog (Cynomys ludovicianus) as a Novel Animal Model for Comparing Smallpox Vaccines Administered Preexposure in both High- and Low-Dose Monkeypox Virus Challenges , 2011, Journal of Virology.

[7]  J. Hartings,et al.  Experimental Infection of Cynomolgus Macaques (Macaca fascicularis) with Aerosolized Monkeypox Virus , 2010, PloS one.

[8]  I. Damon,et al.  Dosage comparison of Congo Basin and West African strains of monkeypox virus using a prairie dog animal model of systemic orthopoxvirus disease , 2010, Virology.

[9]  D. Pérez,et al.  Minimal molecular constraints for respiratory droplet transmission of an avian–human H9N2 influenza A virus , 2009, Proceedings of the National Academy of Sciences.

[10]  I. Damon,et al.  A prairie dog animal model of systemic orthopoxvirus disease using West African and Congo Basin strains of monkeypox virus. , 2009, The Journal of general virology.

[11]  J. P. Davis,et al.  Spectrum of Infection and Risk Factors for Human Monkeypox, United States, 2003 , 2007, Emerging infectious diseases.

[12]  J. P. Davis,et al.  Monkeypox zoonotic associations: insights from laboratory evaluation of animals associated with the multi-state US outbreak. , 2007, The American journal of tropical medicine and hygiene.

[13]  R. Tesh,et al.  Comparative pathology of North American and central African strains of monkeypox virus in a ground squirrel model of the disease. , 2007, The American journal of tropical medicine and hygiene.

[14]  I. Damon,et al.  Detection of monkeypox virus with real-time PCR assays , 2006, Journal of clinical virology : the official publication of the Pan American Society for Clinical Virology.

[15]  J. Sejvar,et al.  Clinical characteristics of human monkeypox, and risk factors for severe disease. , 2005, Clinical infectious diseases : an official publication of the Infectious Diseases Society of America.

[16]  P. Formenty,et al.  A tale of two clades: monkeypox viruses. , 2005, The Journal of general virology.

[17]  P. Formenty,et al.  Extended interhuman transmission of monkeypox in a hospital community in the Republic of the Congo, 2003. , 2005, The American journal of tropical medicine and hygiene.

[18]  P. Jahrling,et al.  Virulence differences between monkeypox virus isolates from West Africa and the Congo basin , 2005, Virology.

[19]  P. Eckburg,et al.  Human monkeypox , 2004, The Lancet. Infectious diseases.

[20]  J. P. Davis,et al.  The detection of monkeypox in humans in the Western Hemisphere. , 2004, The New England journal of medicine.

[21]  P. Jahrling,et al.  The Pathology of Experimental Aerosolized Monkeypox Virus Infection in Cynomolgus Monkeys (Macaca fascicularis) , 2001, Laboratory Investigation.

[22]  M. Esteban,et al.  Identification and characterization of vaccinia virus genes encoding proteins that are highly antigenic in animals and are immunodominant in vaccinated humans , 1992, Journal of virology.

[23]  B. Grab,et al.  Clinico-epidemiological features of monkeypox patients with an animal or human source of infection. , 1988, Bulletin of the World Health Organization.

[24]  I. Arita,et al.  Human monkeypox, 1970-79. , 1980, Bulletin of the World Health Organization.