Exercise Mataika: White Paper on response to a smallpox bioterrorism release in the Pacific
Autor: | William D. Rawlinson, Michael G Baker, John Michael Lane, Jesper Elsgaard, Devina Nand, Lauasa Fotualii, Kevin Yeo, Michael Butel, Tomasz Kiedrzynski, Cassidy Nelson, David J Heslop, Alexander Rosewell, Chandini Raina MacIntyre, Louise Fonua, Craig Schramm |
---|---|
Jazyk: | angličtina |
Rok vydání: | 2019 |
Předmět: |
Smallpox
orthopoxviruses pandemic epidemic military police public health disaster first responder health security bioterrorism terrorism warfare biological select agents synthetic biology medicine.medical_specialty business.industry Public health lcsh:Public aspects of medicine Law enforcement Legislation lcsh:RA1-1270 Public relations medicine.disease lcsh:Infectious and parasitic diseases First responder public health disaster response infectious diseases terrorism warfare biowarfare bioterrorism White paper Political science Preparedness Pandemic medicine Smallpox lcsh:RC109-216 business |
Zdroj: | Global Biosecurity, Vol 1, Iss 1, Pp 91-105 (2019) Global Biosecurity; Vol 1 (2019) |
ISSN: | 2652-0036 |
Popis: | Smallpox was declared eradicated in 1980, with known seed stock retained in two high security Biosafety Level 4 laboratories in the United States and Russia. Experts agree the likelihood of theft from these laboratories is low, and that synthetic creation of smallpox is a theoretical possibility. Until 2017 it was believed that synthetic smallpox was technically too complex a task to be a serious threat. However, in 2017, Canadian scientists synthesised a closely related orthopoxvirus, horsepox, using mail order DNA and $100,000. Simultaneously, terrorist groups have declared intent to conduct biological attacks. In this context an exercise was held on August 16th 2018, with international and cross-sectoral stakeholders to review preparedness for a bioterrorism attack in the Asia-Pacific region and globally. The exercise was conducted by The National Health and Medical Research Council (NHMRC) Centre for Research Excellence, Integrated Systems for Epidemic Response, with contextual input from the Ministry of Health and Medical Services Fiji. The scenario involved a deliberate release in Fiji, followed by a larger release in a more populous Asian country. Mathematical modelling was used to underpin epidemic projections under different conditions. The exercise alternated between clinical, public health, emergency and societal responses, with participants making real-time decisions on cross-sectoral response across the region and the world. Key weak points which are influential in determining the final size and impact of the epidemic were identified (based on mathematical modelling of transmission in Fiji and globally). We identified potential gaps in preparedness for smallpox and factors which influence the severity of a smallpox epidemic. This included identifying which determinants of epidemic size are potentially within our control, and which are not. Influential factors within our control include: preventing an attack through intelligence, law enforcement and legislation; speed of diagnosis; speed and completeness of case finding and case isolation; speed and security of vaccination response, including stockpiling; speed and completeness of contact tracing; protecting critical infrastructure and business continuity; non-pharmaceutical interventions (social distancing, PPE, border control); protecting first responders; operational support and logistics; social mobilisation and risk communication. Based on discussion at the workshop between diverse stakeholders, recommendations were made to guide improved prevention, mitigation and rapid response, thus providing a holistic, cross-sectoral framework for prevention of a worst-case scenario smallpox pandemic. |
Databáze: | OpenAIRE |
Externí odkaz: |