For a large number of infectious diseases, vaccination is the most effective way to prevent an epidemic. However, the vaccine stockpile is hardly ever sufficient to treat the entire population, which brings about the challenge of vaccine allocation. To aid decision makers facing this challenge, we provide insights into the structure of this problem. We first investigate the dependence of health benefit on the fraction of people that receive vaccination, where we define health benefit as the total number of people that escape infection. We start with the seminal SIR compartmental model. Using implicit function analysis, we prove the existence of a unique vaccination fraction that maxi- mizes the health benefit per dose of vaccine, and that ...
For current pandemic influenza H1N1, vaccine production started in the early summer, and vaccination...
<p>The solid lines in Figures A and B illustrate the optimal fraction of the available vaccine alloc...
When vaccine supply is limited but population immunization urgent, theallocation of the available do...
textabstractFor a large number of infectious diseases, vaccination is the most effective way to prev...
Vaccination is an effective way to prevent an epidemic. It results in immunity for the vaccinated in...
Optimization of vaccine allocations among different segments of a heterogeneous population is import...
AbstractThe final epidemic size (R∞) remains one of the fundamental outcomes of an epidemic, and mea...
Optimization of vaccine allocations among different segments of a heterogeneous population is import...
In previous articles, we formalized the problem of optimal allocation strategies for a (perfect) vac...
AbstractOne of the fundamental problems in public health is how to allocate a limited set of resourc...
A highly effective method for controlling the spread of an infectious disease is vaccination. Howeve...
Vaccine allocation strategy for COVID-19 is an emerging and important issue that affects the efficie...
‘Critical vaccination coverages’ are vaccination allocations that result in an effective reproductio...
Infectious diseases have had a devastating impact on society and the world's population throughout t...
For current pandemic influenza H1N1, vaccine production started in the early summer, and vaccination...
<p>The solid lines in Figures A and B illustrate the optimal fraction of the available vaccine alloc...
When vaccine supply is limited but population immunization urgent, theallocation of the available do...
textabstractFor a large number of infectious diseases, vaccination is the most effective way to prev...
Vaccination is an effective way to prevent an epidemic. It results in immunity for the vaccinated in...
Optimization of vaccine allocations among different segments of a heterogeneous population is import...
AbstractThe final epidemic size (R∞) remains one of the fundamental outcomes of an epidemic, and mea...
Optimization of vaccine allocations among different segments of a heterogeneous population is import...
In previous articles, we formalized the problem of optimal allocation strategies for a (perfect) vac...
AbstractOne of the fundamental problems in public health is how to allocate a limited set of resourc...
A highly effective method for controlling the spread of an infectious disease is vaccination. Howeve...
Vaccine allocation strategy for COVID-19 is an emerging and important issue that affects the efficie...
‘Critical vaccination coverages’ are vaccination allocations that result in an effective reproductio...
Infectious diseases have had a devastating impact on society and the world's population throughout t...
For current pandemic influenza H1N1, vaccine production started in the early summer, and vaccination...
<p>The solid lines in Figures A and B illustrate the optimal fraction of the available vaccine alloc...
When vaccine supply is limited but population immunization urgent, theallocation of the available do...
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