Jpn. J. Infect. Dis., 65 (4), 279-288, 2012
To see a printable version of the article in the Adobe file format, click this [PDF] link.
Hiroshi Yoshikura*
National Institute of Infectious Diseases, Tokyo 162-8640, Japan
(Received September 12, 2011. Accepted April 5, 2012)
*Corresponding author: Mailing address: Department of Food Safety, Ministry of Health, Labour and Welfare, 1-2-2, Kasumigaseki, Chiyoda-ku, Tokyo 100-8916, Japan. Tel: +81-3-3595-2326, Fax: +81-3-3503-7965, E-mail: このメールアドレスはスパムボットから保護されています。閲覧するにはJavaScriptを有効にする必要があります。
SUMMARY: The relationship between log cumulative number of patients (X) and that of deaths (Y) in an epidemic follows the equation logY = klogX – klogN0, where k is a constant determining the slope and N0 is the value of X when Y = 1. Diseases with k = 1 are Ebola hemorrhagic fever, avian influenza H5N1, cholera, and hand, foot, and mouth disease; those with k > 1 are the influenza H1N1 2009 pandemic in countries other than Mexico and the SARS epidemic in some countries; and those with k < 1 include the influenza H1N1 2009 pandemic in Mexico. Epidemics with k > 1 can be simulated by postulating two subpopulations (normal population [NP] and vulnerable population [VP]), where the epidemic proceeds at higher speed and at higher mortality in VP than in NP. Epidemics with k < 1 can be simulated by postulating coexisting high virulence virus (HVV) and low virulence virus (LVV), with the former being propagated at slower speed and with a higher mortality rate than the latter. An epidemic with k > 1 was simulated using parameters that are fractions of subpopulations NP or VP from the total population (f) and NP- or VP-specific patient multiplication (M) and mortality (D) rates. An epidemic with k < 1 was simulated using parameters that are fractions of HVV- or LVV-infected human populations (f), and HVV- or LVV-specific M and D.
