• Title of article

    Comparing methods to quantify experimental transmission of infectious agents

  • Author/Authors

    Velthuis، نويسنده , , A.G.J. and de Jong، نويسنده , , M.C.M. and De Bree، نويسنده , , J.، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2007
  • Pages
    20
  • From page
    157
  • To page
    176
  • Abstract
    Transmission of an infectious agent can be quantified from experimental data using the transient-state (TS) algorithm. The TS algorithm is based on the stochastic SIR model and provides a time-dependent probability distribution over the number of infected individuals during an epidemic, with no need for the experiment to end in final-size (e.g., where no more infections can occur). Because of numerical limitations, the application of the TS algorithm is limited to populations with only a few individuals. We investigated the error of using the easily applicable, time-independent final-size (FS) algorithm knowing that the FS situation was not reached. We conclude that the methods based on the FS algorithm: (i) underestimate R0, (ii) are liberal when testing H0:R0 ⩾ 1 against H1:R0 < 1, (iii) are conservative when testing H0:R0 ⩽ 1 against H1:R0 > 1, and (iv) are conservative when testing H0:Rcontrol = Rtreatment against H1:Rcontrol > Rtreatment. Furthermore, a new method is presented to find a difference in transmission between two treatment groups (MaxDiff test). The MaxDiff test is compared to tests based on FS and TS algorithms. The TS test and the MaxDiff test were most powerful (approximately equally powerful) in finding a difference, whereas the FS test was less powerful (especially, when both Rcontrol and Rtreatment are >1).
  • Keywords
    R0 , Transmission , Transmission experiment , Quantification methods
  • Journal title
    Mathematical Biosciences
  • Serial Year
    2007
  • Journal title
    Mathematical Biosciences
  • Record number

    1589143