Pulse vaccination strategy

On Pulse Polio Day, a child swallows vaccine drops and is marked as vaccinated (felt-nib pen on finger). The Pulse Polio immunisation campaign eliminated polio from India.

The pulse vaccination strategy is a method used to eradicate an epidemic by repeatedly vaccinating a group at risk, over a defined age range, until the spread of the pathogen has been stopped. It is most commonly used during measles and polio epidemics to quickly stop the spread and contain the outbreak.[1][2]

Where T= time units is a constant fraction p of susceptible subjects vaccinated in a relatively short time. This yields the differential equations for the susceptible and vaccinated subjects as:

\frac{dS}{dt} = \mu N - \mu S - \beta \frac{I}{N} S, S(n T^+) = (1-p) S(n T^-) n=0,1,2,\dots
\frac{dV}{dt} = - \mu V, V(n T^+) = V(n T^-) + p S(n T^-) n=0,1,2,\dots

It is easy to see that by setting I = 0 one obtains that the dynamics of the susceptible subjects is given by:

S^*(t) = 1- \frac{p}{1-(1-p)E^{-\mu T}}E^{-\mu MOD(t,T)}

and that the eradication condition is:

R_0 \int_{0}^{T}{S^*(t)dt} < 1

See also

References

  1. Nokes, DJ., Swinton, J. The control of childhood viral infections by pulse vaccination.IMA J Math Appl Med Biol. 1995;12(1):29-53.
  2. Nokes, DJ., Swinton, J. Vaccination in pulses: a strategy for global eradication of measles and polio?Trends Microbiol. 1997 Jan;5(1):14-9.

External links

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