Incorporating human dynamic populations in models of infectious disease transmission: a systematic review

Garnett GP(2011)Mathematical models in the Evaluation of Health Programmes Lancet 378 515-525

Cousens S(2008)Social contacts and mixing patterns relevant to the spread of infectious diseases PLoS Med 5 e74-653

Hallett TB(2000)The mathematics of infectious diseases SIAM Rev 42 599-751

Steketee R(1893)Household members do not contact each other at random: implications for infectious disease modelling Proc R Soc B Biol Sci. 2018 20182201-565

Walker N(1982)Estimating household and community transmission parameters for influenza Am J Epidemiol 115 736-175

Mossong J(2010)The role of population heterogeneity and human mobility in the spread of pandemic influenza Proc R Soc B Biol Sci 277 557-64

Hens N(2004)Realistic population dynamics in epidemiological models: the impact of population decline on the dynamics of childhood infectious diseases measles in Italy as an example Math Biosci 192 153-1732

Jit M(2015)The effects of demographic change on disease transmission and vaccine impact in a household structured population Epidemics 13 56-138

Beutels P(2014)Deciphering the relative weights of demographic transition and vaccination in the decrease of measles incidence in Italy Proc R Soc Biol Sci. 281 20132676-10

Auranen K(2013)Think globally, act locally: the role of local demographics and vaccination coverage in the dynamic response of measles infection to control Philos Trans R Soc Biol Sci 368 20120141-11

Garnett GP(2011)Mathematical models in the Evaluation of Health Programmes Lancet 378 515-525

Cousens S(2008)Social contacts and mixing patterns relevant to the spread of infectious diseases PLoS Med 5 e74-653

Hallett TB(2000)The mathematics of infectious diseases SIAM Rev 42 599-751

Steketee R(1893)Household members do not contact each other at random: implications for infectious disease modelling Proc R Soc B Biol Sci. 2018 20182201-565

Walker N(1982)Estimating household and community transmission parameters for influenza Am J Epidemiol 115 736-175

Mossong J(2010)The role of population heterogeneity and human mobility in the spread of pandemic influenza Proc R Soc B Biol Sci 277 557-64

Hens N(2004)Realistic population dynamics in epidemiological models: the impact of population decline on the dynamics of childhood infectious diseases measles in Italy as an example Math Biosci 192 153-1732

Jit M(2015)The effects of demographic change on disease transmission and vaccine impact in a household structured population Epidemics 13 56-138

Beutels P(2014)Deciphering the relative weights of demographic transition and vaccination in the decrease of measles incidence in Italy Proc R Soc Biol Sci. 281 20132676-10

Auranen K(2013)Think globally, act locally: the role of local demographics and vaccination coverage in the dynamic response of measles infection to control Philos Trans R Soc Biol Sci 368 20120141-11