Global identification of three major genotypes of varicella-zoster virus: longitudinal clustering and strategies for genotyping, J Virol, vol.78, p.15254207, 2004. ,
Seroprevalence of varicella in the French population, Pediatr Infect Dis J, vol.25, p.16395101, 2006. ,
Varicella: complications and costs, Pediatrics, vol.78, p.3093966, 1986. ,
A simple model for complex dynamical transitions in epidemics, Science, vol.287, p.10650003, 2000. ,
Deciphering the relative weights of demographic transition and vaccination in the decrease of measles incidence in Italy, Proc R Soc B, vol.281, p.24403333, 2014. ,
The impact of demographic changes on the epidemiology of herpes zoster: Spain as a case study, Proc R Soc B, vol.282, p.25761709, 2015. ,
Measles immunity gaps and the progress towards elimination: a multi-country modeling analysis, Lancet Infect Dis, vol.17, issue.17, p.28807627, 2017. ,
Demographic transition and the dynamics of measles in six provinces in China: A modeling study, PLOS Med, vol.14, p.28376084, 2017. ,
, Human mortality database, 2014.
, , p.26, 2017.
Chickenpox increasingly affects preschool children, Commun Dis Public Health, vol.3, p.11014039, 2000. ,
Epidemiology of varicella in Slovenia over a twenty-year period (19791998), Epidemiol Infect, vol.126, p.11349978, 2001. ,
PMID: 8896538 Impact of changes in day-care contacts on varicella transmission, Epidemiology of chickenpox in England and Wales, vol.174, pp.673-679, 1988. ,
Epidemiology of chickenpox in Scotland: 1981 to 1998, Commun Dis Public Health, vol.3, p.11280260, 2000. ,
Community impact of childhood varicella infections, J Pediatr, vol.130, p.9152286, 1997. ,
Infections with varying contact rates: application to varicella, Biometrics, vol.60, p.15339283, 2004. ,
The French connection: the first large population-based contact survey in France relevant for the spread of infectious diseases, PloS ONE, vol.10, p.26176549, 2015. ,
Reinert P. Prevalence of anti-varicella-zoster virus antibodies in French infants under 15 months of age, Clin Vaccine Immunol, vol.16, p.19176690, 2009. ,
Using data on social contacts to estimate age-specific transmission parameters for respiratory-spread of infectious agents, Am J Epidemiol, vol.164, p.16968863, 2006. ,
Recurrent outbreaks of measles, chickenpox and mumps: I. Seasonal variation in contact rates, Am J Epidemiol, vol.98, p.4767622, 1973. ,
The effects of demographic change on disease transmission and vaccine impact in a household structured population, vol.13, p.26616042, 2015. ,
, ) and Directorate of Employment, Labour and Social Affairs. OECD Family Database. Enrolment in childcare and pre-school, p.26, 2017.
, Infant school in France, p.26, 2017.
, Observatoire national de la petite enfance, p.26, 2015.
Modelling the effects of population structure on childhood disease: the case of varicella, PLoS Comput Biol, vol.7, issue.1002105, p.21814504, 2011. ,
URL : https://hal.archives-ouvertes.fr/inserm-00692057
The comparative sero-epidemiology of varicella zoster virus in 11 countries in the European region, Vaccine, vol.25, p.17919788, 2007. ,
The effects of school holidays on transmission of varicella zoster virus, PloS ONE, vol.9, p.24932994, 1967. ,
Seasonality and comparative dynamics of six childhood infections in pre-vaccination Copenhagen, Proc R Soc B, vol.276, p.19740885, 2009. ,
Estimation of the contact rate in a seasonal SEIR model: application to chickenpox incidence in France, Stat Med, vol.19, p.10797517, 2000. ,
Social Contacts and Mixing Patterns Relevant to the Spread of Infectious Diseases, PLoS Med, vol.5, p.18366252, 2008. ,
Inferring the structure of social contacts from demographic data in the analysis of infectious diseases spread, PLoS Comput Biol, vol.8, p.23028275, 2012. ,
Little Italy: an agent-based approach to the estimation of contact patterns-fitting predicted matrices to serological data, PLoS Comput Biol, vol.6, p.21152004, 2010. ,
Social Contact Structures and Time Use Patterns in the Manicaland Province of Zimbabwe, PLoS ONE, vol.12, p.28099479, 2017. ,
An infectious disease model on empirical networks of human contact: bridging the gap between dynamic network data and contact matrices, BMC Infect Dis, vol.13, p.23618005, 2013. ,
URL : https://hal.archives-ouvertes.fr/hal-00817269
Modélisation de l'impact de la vaccination sur l'e ´pidémiologie de la varicelle et du zona, Rev Epidemiol Sante Publique, vol.56, p.18951741, 2008. ,
What types of contacts are important for the spread of infections?: using contact survey data to explore European mixing patterns, Epidemics, vol.3, p.22094337, 2011. ,
Perspectives on the impact of varicella immunization on herpes zoster. A model-based evaluation from three European countries, PLoS One, vol.8, p.23613740, 2013. ,
Hope-Simpson's progressive immunity hypothesis as a possible explanation for herpes zoster incidence data, Am J Epidemiol, vol.177, p.23548754, 2013. ,
Modelling the impact of a combined varicella and zoster vaccination programme on the epidemiology of varicella zoster virus in England. Vaccine, vol.29, p.21277405, 2011. ,
Estimating infectious disease parameters from data on social contacts and serological status, J R Stat Soc Ser C Appl Stat, vol.59, pp.255-77, 2010. ,
The social contact hypothesis under the assumption of endemic equilibrium: Elucidating the transmission potential of VZV in Europe, Epidemics, vol.11, p.25979278, 2015. ,
Micro and macro population effects in disease transmission: the case of varicella, Epidemiol Infect, vol.138, pp.482-90, 2010. ,
Changing families in the European Union: Trends and policy implications, p.26, 2015. ,
Varicella in non-immune persons: incidence, hospitalization and mortality rates, Epidemiol Infect, vol.129, pp.599-606, 2002. ,