2019
DOI: 10.1038/s41467-019-11861-y
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Pareto rules for malaria super-spreaders and super-spreading

Abstract: Heterogeneity in transmission is a challenge for infectious disease dynamics and control. An 80-20 "Pareto" rule has been proposed to describe this heterogeneity whereby 80% of transmission is accounted for by 20% of individuals, herein called super-spreaders. It is unclear, however, whether super-spreading can be attributed to certain individuals or whether it is an unpredictable and unavoidable feature of epidemics. Here, we investigate heterogeneous malaria transmission at three sites in Uganda and find tha… Show more

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Cited by 56 publications
(72 citation statements)
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References 39 publications
(58 reference statements)
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“…As utilities for setting up simulations, MBITES has developed some simple parametric functions to compute these probabilities as a function of distance and an activity-specific search weight, ω x , where x denotes a particular blood feeding haunt or aquatic habitat [14]. These functions thus provide multiple ways of computing the probability of moving from one haunt to any other haunt, optionally conditional on behavioral state.…”
Section: Mbitesmentioning
confidence: 99%
See 1 more Smart Citation
“…As utilities for setting up simulations, MBITES has developed some simple parametric functions to compute these probabilities as a function of distance and an activity-specific search weight, ω x , where x denotes a particular blood feeding haunt or aquatic habitat [14]. These functions thus provide multiple ways of computing the probability of moving from one haunt to any other haunt, optionally conditional on behavioral state.…”
Section: Mbitesmentioning
confidence: 99%
“…While the Ross-Macdonald model and associated bionomic parameters are a useful way of summarizing overall transmission intensity, a weakness of the model is that it does not include many other parameters and metrics that are important for pathogen transmission dynamics, the measurement of transmission, and responses to vector control. These include metrics for heterogeneous biting by mosquitoes [14], the spatial dimensions of transmission or control [15][16][17], vector contact rates with and quantitative responses to various kinds of vector control deployed in myriad combinations and coverage levels [18], environmental factors that affect variance in the number of mosquitoes caught [19], and nuances of behavior affecting the accuracy of various field methods [8]. Models describing effect sizes of vector control rely on assumptions about the way interventions alter the basic bionomic parameters [20], but there has been very little theory developed to understand either what contextual factors determine baseline bionomic parameters or how contextual factors influence the effect sizes of control [21].…”
Section: Introductionmentioning
confidence: 99%
“…While the Ross-Macdonald model and associated bionomic parameters are a useful way of summarizing overall transmission intensity, a weakness of the model is that it does not include many other parameters and metrics that are important for pathogen transmission dynamics, the measurement of transmission, and responses to vector control. These include metrics for heterogeneous biting [14], the spatial dimensions of transmission or control [1517], contact rates with and quantitative responses to various kinds of vector control deployed in myriad combinations and at various coverage levels [18], environmental factors that affect variance in the number of mosquitoes caught [19], and nuances of behavior affecting the accuracy of various field methods [8]. Models describing effect sizes of vector control rely on assumptions about the way interventions alter the basic bionomic parameters [20], but there has been very little theory developed to understand either what contextual factors determine baseline bionomic parameters or how contextual factors influence the effect sizes of control [21].…”
Section: Background and Introductionmentioning
confidence: 99%
“…control. An 80 − 20 "Pareto" rule has been proposed to describe this heterogeneity, whereby 80% of transmission is accounted for by 20% of individuals, called super-spreaders [32,33,34]. Vanderwaal et al [31] notes that criterion V (or R0) can be de ned as the number of new infections induced by one infected individual [35].…”
Section: Discussionmentioning
confidence: 99%