Журнал микробиологии, эпидемиологии и иммунобиологии (Jul 2024)

Analysis of aerobiological studies with orthopoxviruses by U.S. Department of Defense

  • Gennady G. Onishenko,
  • Igor A. Kirillov,
  • Sergey V. Borisevich,
  • Tatiana E. Sizikova,
  • Victor T. Krotkov

DOI
https://doi.org/10.36233/0372-9311-522
Journal volume & issue
Vol. 101, no. 3
pp. 399 – 411

Abstract

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Discontinuation of vaccination after the completion of Smallpox global eradication program led to a sharp decrease in the level of collective immunity not only to smallpox but also to other orthopoxvirus infections. Over the past 10–15 years, the world has seen an increase in the frequency of diseases caused by smallpox viruses of cows, buffaloes, camels. The outbreak of mpox (a disease caused by the monkey pox virus) occurred in 2022–2023. Analysis of the literature data on the organization of the orthopoxvirus genome suggest that smallpox could have occurred in the past as a result of evolutionary changes in the zoonotic progenitor virus. In this regard, there is a threat of a new particularly dangerous anthropozoonosis, the pathogen of which can occur both naturally and artificially. The aim of the review is to analyze open science published data on aerobiological research with OPVs conducted by the U.S. Department of Defense from 1994-2013, which was a period of restricted research and storage of smallpox virus samples. The authors did not find any publications of the results of aerobiological research with orthopoxviruses conducted by the US Department of Defense after 2013 in open scientific sources. The review presents a data analysis in Russian and English-speaking scientist publication as well as those posted on the Internet. The presented results of aerobiological studies with orthopoxviruses indicate the interest of the US military department in carrying out experimental work of dual use, including monitoring of the properties of orthopoxviruses and a possible change in their pathogenicity for humans, selection of optimal laboratory models for studying the properties of orthopoxviruses, and the possibility of modeling the properties of the smallpox virus when using other orthopoxviruses (cowpox virus, rabbit pox virus, monkey pox virus), modeling of the main characteristics of the disease caused by the smallpox virus in humans and evaluation of the effectiveness of existing and newly developed vaccines against smallpox, comparative study of effectiveness of antiviral drugs for regular or post-exposure prophylaxis of naturally occurring smallpox and monkey smallpox.

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