Using empirical social contact data to model person to person infectious disease transmission: an illustration for varicella.
about
Economic Evaluations of Childhood Influenza VaccinationPertussis models to inform vaccine policyAnimal Ownership and Touching Enrich the Context of Social Contacts Relevant to the Spread of Human Infectious DiseasesEstimating the impact of school closure on social mixing behaviour and the transmission of close contact infections in eight European countries.Pandemic Risk Assessment Model (PRAM): a mathematical modeling approach to pandemic influenza planning.A penalized likelihood approach to estimate within-household contact networks from egocentric dataAssessing mumps outbreak risk in highly vaccinated populations using spatial seroprevalence data.A nice day for an infection? Weather conditions and social contact patterns relevant to influenza transmission.Mining social mixing patterns for infectious disease models based on a two-day population survey in BelgiumSeventy-five years of estimating the force of infection from current status data.Dynamic models of pneumococcal carriage and the impact of the Heptavalent Pneumococcal Conjugate Vaccine on invasive pneumococcal disease.Varicella susceptibility and transmission dynamics in Slovenia.Modelling the transmission and control strategies of varicella among school children in Shenzhen, China.Social contact patterns in Vietnam and implications for the control of infectious diseasesHousehold crowding, social mixing patterns and respiratory symptoms in seven countries of the African meningitis beltClose encounters in a pediatric ward: measuring face-to-face proximity and mixing patterns with wearable sensors.Modelling the effects of population structure on childhood disease: the case of varicella.Quantifying age-related rates of social contact using diaries in a rural coastal population of Kenya.Influence of contact definitions in assessment of the relative importance of social settings in disease transmission risk.Vaccination in elite athletes.Herpes Zoster Risk Reduction through Exposure to Chickenpox Patients: A Systematic Multidisciplinary ReviewA household-based study of contact networks relevant for the spread of infectious diseases in the highlands of PeruThe French Connection: The First Large Population-Based Contact Survey in France Relevant for the Spread of Infectious Diseases.Exploring the population-level impact of MenB vaccination via modeling: Potential for serogroup replacement.The impact of illness on social networks: implications for transmission and control of influenza.Childhood varicella-zoster virus vaccination in Belgium: cost-effective only in the long run or without exogenous boosting?Social contact patterns relevant to the spread of respiratory infectious diseases in Hong Kong.Integrating between-host transmission and within-host immunity to analyze the impact of varicella vaccination on zoster.Serology indicates cytomegalovirus infection is associated with varicella-zoster virus reactivation.A two-stage approach for estimating the parameters of an age-group epidemic model from incidence data.Evaluation of the effect of chickenpox vaccination on shingles epidemiology using agent-based modeling.
P2860
Q22305810-B8C35A47-8C94-45E9-AF8A-414862832418Q27014700-10BF57A1-E18A-4A89-8B25-44372D7EE22AQ27302201-CE70CAE2-742F-4DB4-B0FA-1C51F61AD8B9Q30382951-4ED977E5-452D-43C3-93D4-CAEBCE0C4E10Q30392042-4C077DE8-B097-4DAA-BBD9-EB4C76FD644AQ30660889-E88880DA-9413-4305-8B74-72A87DD8D448Q30765759-5B678974-9795-4940-971F-434F68500E52Q31107055-8A8F7B68-470B-47C6-AF18-7B3DC021C9CAQ33401108-47A6157F-2747-4098-80C7-29FC7811D5D1Q33504937-A7774B05-3D71-4D47-BB13-6EC5AE269F5FQ33551026-1F87D6CF-6A67-4D55-834A-DF9E6360C639Q33614198-768ADE47-FF52-49AF-B21D-16C85B3DD9C4Q33703682-50757774-CD7B-40CA-BE48-64AE69C8C12FQ33828384-892E9B35-FBFB-445F-96E9-2604751F444AQ33837062-D6DAC3F4-B156-4CC9-95BE-DC8B5606512EQ33840823-F06E49F8-0D08-49AA-AB2E-B75E3AEBC124Q33981247-79655D7E-2CF5-4AE3-BDD5-8A534EEF9CBEQ34050690-1C978A05-DE1F-4FC8-8BC5-D2A0725A493AQ34168072-C7924EA6-BEF0-4827-9A6B-F4A4910DB011Q34227424-5D0CD946-36DC-443A-A4BB-3263524015D1Q34785366-D23343F6-47FC-4D10-B67B-510C95F870FBQ35143978-3AD74CF8-2852-489D-9BFD-765494212E76Q35691952-58899E2C-1862-4983-BC49-37E6881D687AQ37309237-536F15E9-98DF-4D97-A593-818E3042BF99Q37348607-00667907-68DF-4248-8E59-540F0B3AB030Q37521887-0393FD43-2D19-4AF6-AB55-437ADA6C12C5Q38628137-B4F66BA5-92CA-4B32-8798-81B780202DCBQ40640266-1EB117CC-4E38-47FF-92BD-C4AD6C6066D8Q42247692-A55F0198-92BD-4A2D-8D54-78BF23206981Q47278664-620E783D-2A46-40A9-9387-12CCD5993307Q55338707-8DF28F90-F55E-4554-9BD6-3A4667B71575
P2860
Using empirical social contact data to model person to person infectious disease transmission: an illustration for varicella.
description
2009 nî lūn-bûn
@nan
2009 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
2009 թվականի հունվարին հրատարակված գիտական հոդված
@hy
2009年の論文
@ja
2009年論文
@yue
2009年論文
@zh-hant
2009年論文
@zh-hk
2009年論文
@zh-mo
2009年論文
@zh-tw
2009年论文
@wuu
name
Using empirical social contact ...... an illustration for varicella.
@ast
Using empirical social contact ...... an illustration for varicella.
@en
type
label
Using empirical social contact ...... an illustration for varicella.
@ast
Using empirical social contact ...... an illustration for varicella.
@en
prefLabel
Using empirical social contact ...... an illustration for varicella.
@ast
Using empirical social contact ...... an illustration for varicella.
@en
P50
P1476
Using empirical social contact ...... an illustration for varicella.
@en
P2093
Marc Aerts
Nele Goeyvaerts
P356
10.1016/J.MBS.2008.12.009
P577
2009-01-12T00:00:00Z