Quantifying the Intrinsic Transmission Dynamics of Tuberculosis

Previously we have formulated transmission models of untreated tuberculosis epidemics (Bloweret al.,Nature, Medicine1 (1995), 815–821); in this paper, we present time-dependent uncertainty and sensitivity analyses in order to quantitatively understand the transmission dynamics of tuberculosis epidem...

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Bibliographic Details
Published in:Theoretical population biology 1998-10, Vol.54 (2), p.117-132
Main Authors: Porco, Travis C., Blower, Sally M.
Format: Article
Language:English
Subjects:
Disease Outbreaks - statistics & numerical data
Humans
Incidence
Models, Biological
Prevalence
Sensitivity and Specificity
Tuberculosis - epidemiology
Tuberculosis - mortality
Tuberculosis - transmission
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Summary:Previously we have formulated transmission models of untreated tuberculosis epidemics (Bloweret al.,Nature, Medicine1 (1995), 815–821); in this paper, we present time-dependent uncertainty and sensitivity analyses in order to quantitatively understand the transmission dynamics of tuberculosis epidemics in the absence of treatment. The time-dependent uncertainty analysis enabled us to evaluate the variability in the epidemiological outcome variables of the model during the progression of a tuberculosis epidemic. Calculated values (from the uncertainty analysis) for the disease incidence, disease prevalence, and mortality rates were approximately consistent with historical data. The time-dependent sensitivity analysis revealed that only a few of the model's input parameters significantly affected the severity of a tuberculosis epidemic; these parameters were the disease reactivation rate, the fraction of infected individuals who develop tuberculosis soon after infection, the number of individuals that an infectious individual infects per year, the disease death rate, and the population recruitment rate. Our analysis demonstrates that it is possible to improve our understanding of the behavior of tuberculosis epidemics by applying time-dependent uncertainty and sensitivity analysis to a transmission model.
ISSN:0040-5809
1096-0325
DOI:10.1006/tpbi.1998.1366