1. Modeling the SARS Outbreak in Toronto, Canada Regene M. DePiero

2. SARS Background Classified as a coronavirus, the same class as the common cold Highly infectious First case reported November 2002 in China First case in Toronto reported February 2003 No reported cases since May 2004

3. SARS Worldwide Pattern of an Epidemic [Map]. Retrieved: June 13, 2012, from: http://www.nature.com/nature/focus/sars/images/outbreak.jpg

4. Travels in water droplets spread by coughing/sneezing Droplets can be infectious for up to 6 hours Household disinfectants like bleach are effective at killing the virus Spread of SARS Often gloves and masks are not enough to prevent infection, any close contact can put you at risk

5. Sars Virus: Tell-Tale signs and what it does to your body. Retrieved: June 12, 2012, from: http://tnpgallery.wordpress.com/infographics/ Symptoms & Biology

6. Treatment Resistant to traditional antibiotics and antiviral treatments Currently only symptoms can be treated – Steroids to reduce inflammation – Respirators to assist breathing People over 65 are at higher risk of death

7. The Data

9. The Model

10. The Equations S H = hospital population S P = general public I H = infected in hospital I P = infected in general public R H = recovered γ = rate of recovery = 1/14 µ = rate of entrance to hospital = 1/3 α = death rate from disease = 1/35 (Anderson, 2004) Key Assumptions: People are infectious when they are symptomatic No super spreading events (SSE)

11. Basic Reproduction Number, R 0 Appearance of new infections Rate of transfer between compartments Derivative of f & v at Disease Free Equilibrium

12. Transmission Rate, β Chosen Values for β H Day 1 – 35: 0.2522e-4/1.9 Day 35 – 66: 0.01e-5 Day 66 – 100: 0.2522e-4/3 Chosen Values for β P Day 1 – 35 : 0.0412e-6 Day 35-66: 0.01e-5 Day 66-100: 0.0412e-6

13. Results

14. Sensitivity of Beta Chosen Values for β H Day 1 – 35: 0.2522e-5 Day 35 – 66: 0.01e-5 Day 66 – 100: 0.2522e-5 Chosen Values for β P Day 1 – 35: 0.0412e-5/3 Day 35 – 66: 0.01e-5 Day 66 – 100: 0.0412e-5/1.8

15. Further Investigations Stochastic Modeling Analyzing effects of isolation Optimizing isolation period

16. References Pattern of an Epidemic [Map]. Retrieved: June 13, 2012, from: http://www.nature.com/nature/focus/sars/images/outbreak.jpg http://www.nature.com/nature/focus/sars/images/outbreak.jpg Sars Virus: Tell-Tale signs and what it does to your body. Retrieved: June 12, 2012, from: http://tnpgallery.wordpress.com/infographics/ http://tnpgallery.wordpress.com/infographics/ Anderson, R.M., Fraser, C., Ghani, A.C., Donnelly, C.A., Riley, S., Ferguson, N.M., Leung, G.M., Lam, T.H., & Hedley, A.J. (2004) Epidemiology, transmission dynamics and control of SARS: the 2002-2003 epidemic. Philosophical Transactions of the Royal Society B, 359, 1091-1105, doi: 10.1098/rstb.2004.1490