Estimated epidemiologic parameters and morbidity associated with pandemic H1N1 influenza

AbstractBackgroundIn the face of an influenza pandemic, accurate estimates of epidemiologic parameters are required to help guide decision-making. We sought to estimate epidemiologic parameters for pandemic H1N1 influenza using data from initial reports of laboratory-confirmed cases. MethodsWe obtai...

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Bibliographic Details
Published in:Canadian Medical Association journal 2010-02, Vol.182 (2), p.131-136
Main Authors: Tuite, Ashleigh R., MSc MHSc, Greer, Amy L., MSc PhD, Whelan, Michael, MSc, Winter, Anne-Luise, BScN MHSc, Lee, Brenda, MHSc, Yan, Ping, PhD, Wu, Jianhong, PhD, Moghadas, Seyed, PhD, Buckeridge, David, MD PhD, Pourbohloul, Babak, PhD, Fisman, David N., MD MPH
Format: Article
Language:English
Subjects:
Adolescent
Adult
Age Distribution
Age Factors
Aged
Aged, 80 and over
Child
Child, Preschool
Decision-making
Disease Outbreaks
Disease transmission
Epidemiology
Humans
Infant
Infant, Newborn
Infectious Disease Incubation Period
Influenza A Virus, H1N1 Subtype
Influenza, Human - epidemiology
Influenza, Human - transmission
Internal Medicine
Markov Chains
Markov processes
Methods
Middle Aged
Monte Carlo Method
Morbidity
Ontario - epidemiology
Pandemics
Parameter estimation
Patient Admission - statistics & numerical data
Proportional Hazards Models
Risk
Risk factors
Studies
Swine flu
Swine influenza
Young Adult
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Summary:AbstractBackgroundIn the face of an influenza pandemic, accurate estimates of epidemiologic parameters are required to help guide decision-making. We sought to estimate epidemiologic parameters for pandemic H1N1 influenza using data from initial reports of laboratory-confirmed cases. MethodsWe obtained data on laboratory-confirmed cases of pandemic H1N1 influenza reported in the province of Ontario, Canada, with dates of symptom onset between Apr. 13 and June 20, 2009. Incubation periods and duration of symptoms were estimated and fit to parametric distributions. We used competing-risk models to estimate risk of hospital admission and case-fatality rates. We used a Markov Chain Monte Carlo model to simulate disease transmission. ResultsThe median incubation period was 4 days and the duration of symptoms was 7 days. Recovery was faster among patients less than 18 years old than among older patients (hazard ratio 1.23, 95% confidence interval 1.06–1.44). The risk of hospital admission was 4.5% (95% CI 3.8%–5.2%) and the case-fatality rate was 0.3% (95% CI 0.1%–0.5%). The risk of hospital admission was highest among patients less than 1 year old and those 65 years or older. Adults more than 50 years old comprised 7% of cases but accounted for 7 of 10 initial deaths (odds ratio 28.6, 95% confidence interval 7.3–111.2). From the simulation models, we estimated the following values (and 95% credible intervals): a mean basic reproductive number ( R 0, the number of new cases created by a single primary case in a susceptible population) of 1.31 (1.25–1.38), a mean latent period of 2.62 (2.28–3.12) days and a mean duration of infectiousness of 3.38 (2.06–4.69) days. From these values we estimated a serial interval (the average time from onset of infectiousness in a case to the onset of infectiousness in a person infected by that case) of 4–5 days. InterpretationThe low estimates for R 0 indicate that effective mitigation strategies may reduce the final epidemic impact of pandemic H1N1 influenza.
ISSN:0820-3946
0008-4409
1488-2329
DOI:10.1503/cmaj.091807