Simulating school closure strategies to mitigate an influenza epidemic
about
The effects of school closures on influenza outbreaks and pandemics: systematic review of simulation studiesEfficient simulation of the spatial transmission dynamics of influenzaPolicies to reduce influenza in the workplace: impact assessments using an agent-based modelApollo: giving application developers a single point of access to public health models using structured vocabularies and Web servicesReactive School Closure During Increased Influenza-Like Illness (ILI) Activity in Western Kentucky, 2013: A Field Evaluation of Effect on ILI Incidence and Economic and Social Consequences for FamiliesA Tale of Many Cities: A Contemporary Historical Study of the Implementation of School Closures during the 2009 pA(H1N1) Influenza Pandemic.Preparedness for pandemics: does variation among states affect the nation as a whole?Vaccination deep into a pandemic wave potential mechanisms for a "third wave" and the impact of vaccinationA computer simulation of vaccine prioritization, allocation, and rationing during the 2009 H1N1 influenza pandemic.A sequential experimental design method to evaluate a combination of school closure and vaccination policies to control an H1N1-like pandemicFRED (a Framework for Reconstructing Epidemic Dynamics): an open-source software system for modeling infectious diseases and control strategies using census-based populations.Transmission characteristics of different students during a school outbreak of (H1N1) pdm09 influenza in China, 2009.One-Health Simulation Modelling: Assessment of Control Strategies Against the Spread of Influenza between Swine and Human Populations Using NAADSM.Health inequalities and infectious disease epidemics: a challenge for global health security.The effect of reactive school closure on community influenza-like illness counts in the state of Michigan during the 2009 H1N1 pandemic.Is population structure sufficient to generate area-level inequalities in influenza rates? An examination using agent-based models.Economic Evaluation of Individual School Closure Strategies: The Hong Kong 2009 H1N1 Pandemic.Feasibility of elementary school children's use of hand gel and facemasks during influenza season.The impact of mass gatherings and holiday traveling on the course of an influenza pandemic: a computational model.The 2009 H1N1 influenza pandemic: a case study of how modeling can assist all stages of vaccine decision-makingVariability in school closure decisions in response to 2009 H1N1: a qualitative systems improvement analysis.Age-specific differences in influenza A epidemic curves: do children drive the spread of influenza epidemics?The role of subway travel in an influenza epidemic: a New York City simulation.Recommendations for and compliance with social restrictions during implementation of school closures in the early phase of the influenza A (H1N1) 2009 outbreak in Melbourne, Australia.School absenteeism as an adjunct surveillance indicator: experience during the second wave of the 2009 H1N1 pandemic in Quebec, Canada.Simulating school closure policies for cost effective pandemic decision making.Effect of short-term school closures on the H1N1 pandemic in Japan: a comparative case study.A review of simulation modelling approaches used for the spread of zoonotic influenza viruses in animal and human populations.Dynamic modelling of costs and health consequences of school closure during an influenza pandemicSchool closure as an influenza mitigation strategy: how variations in legal authority and plan criteria can alter the impact.Use of nonpharmaceutical interventions to reduce transmission of 2009 pandemic influenza A (pH1N1) in Pennsylvania public schools.Economic analysis of pandemic influenza mitigation strategies for five pandemic severity categoriesWould school closure for the 2009 H1N1 influenza epidemic have been worth the cost?: a computational simulation of Pennsylvania.Estimates of Social Contact in a Middle School Based on Self-Report and Wireless Sensor Data.Global influenza seasonality: reconciling patterns across temperate and tropical regions.Impact of changing the measles vaccine vial size on Niger's vaccine supply chain: a computational model.Maintaining vaccine delivery following the introduction of the rotavirus and pneumococcal vaccines in Thailand.Evaluating temporal factors in combined interventions of workforce shift and school closure for mitigating the spread of influenza.Measured dynamic social contact patterns explain the spread of H1N1v influenzaHow to minimize the attack rate during multiple influenza outbreaks in a heterogeneous population.
P2860
Q27004719-8EFA9063-B9EC-48CF-8280-1DA37CD14788Q27318216-FEF7FF22-D7B4-4595-B544-8B56D101652DQ28394365-D879C982-188C-4F9E-B2B0-1B624BC9096AQ28660216-60D1A818-94AF-4F42-AAE7-62ACA666C808Q30151672-F1EA4462-9E21-4369-AFEB-6FCA0262C567Q30196539-D47C460D-D5D3-461D-BDCE-E4CFA0E64C79Q30224675-3660CE94-AA8C-4B19-87CE-15233D39633FQ30226922-09AA402C-074B-4955-8AB5-E784A2212C45Q30227160-A6FE14A0-93AA-481E-926D-AABBBB01DF7BQ30352494-BA48FDE3-C1C2-4931-AC5C-1A07C6344590Q30354231-51936EE4-CAAC-4C0B-8946-7522EC5011F3Q30365504-9FD92AA3-B91C-4A60-B125-4528AB6C4415Q30366780-4C48CCF4-6CE9-4E6A-841A-DED054C0BF66Q30367165-6B48D97C-4D08-4F5D-A4C0-B5870AA885ADQ30373984-B06B34CE-E8E8-4F3F-944D-046730E4FC9AQ30379492-C529E954-4616-4F6C-B1AA-BC7680AA24E0Q30383964-EA70E6B9-BFBF-4A88-A865-852831246B08Q30393570-5C2D1428-4777-4603-BE74-56FBB2AFD27CQ30397758-C7930CDA-EA0E-40F5-9E86-71F94B9C6AE2Q30398941-3F6B8E16-44B8-4B59-AC0F-898AF3F67520Q30399201-8DE6FB97-89F0-4A32-9C71-44E5666BECF3Q30403017-BD4F1BE3-CD48-4183-838A-40EEC608301DQ30405804-91108EEA-894F-4305-AF40-93FCAEC08B06Q30407603-0AFF55BF-6A45-4BDF-A104-234DFE9AD5D6Q30415090-0D9328DE-26D5-4C19-ACA8-A597DE46347BQ30418230-B116D370-19DF-4448-9465-57324E72C0A1Q30419822-9B3CCD05-BC2C-4D33-8078-D4C3ABB45460Q30420823-35600FFF-A662-42CA-AD47-E7C2E6AC4701Q30423409-174949D6-1186-4C98-BAE0-6A4C26BE51D8Q30423546-A1AD1D46-5382-4BA6-A88B-2527EB17A921Q30428215-D4A43DDC-1051-43AB-AAC1-9962E2CEF133Q30428319-E308B41A-AE0A-4FB0-9639-560676BC2C65Q31013216-05C6A071-B1DE-4ACE-8DEC-8618AC61A845Q31082406-695A0F09-8CB6-45A8-B978-837C9251B402Q33753509-545A19DF-337A-463B-9692-8547E4FBDD54Q33920353-DDA28663-3BDB-4CF1-B6E3-3FEBFF31ADB8Q34023894-4D170020-9C85-49E4-B770-04C0FF9140CAQ34189378-08BF850C-558E-4080-80BD-97AE1112DFC6Q34192829-7FB09E39-8816-460E-A85E-ABCD31B97B07Q34305125-22DD41C1-999F-4F13-A627-739031C9F698
P2860
Simulating school closure strategies to mitigate an influenza epidemic
description
2010 nî lūn-bûn
@nan
2010 թուականի Մայիսին հրատարակուած գիտական յօդուած
@hyw
2010 թվականի մայիսին հրատարակված գիտական հոդված
@hy
2010年の論文
@ja
2010年論文
@yue
2010年論文
@zh-hant
2010年論文
@zh-hk
2010年論文
@zh-mo
2010年論文
@zh-tw
2010年论文
@wuu
name
Simulating school closure strategies to mitigate an influenza epidemic
@ast
Simulating school closure strategies to mitigate an influenza epidemic
@en
type
label
Simulating school closure strategies to mitigate an influenza epidemic
@ast
Simulating school closure strategies to mitigate an influenza epidemic
@en
prefLabel
Simulating school closure strategies to mitigate an influenza epidemic
@ast
Simulating school closure strategies to mitigate an influenza epidemic
@en
P2093
P2860
P50
P1476
Simulating school closure strategies to mitigate an influenza epidemic
@en
P2093
Diane K Wagener
Donald S Burke
John J Grefenstette
Maggie A Potter
Philip Cooley
Ronald E Voorhees
Samuel Stebbins
Shanta M Zimmer
William D Wheaton
P2860
P304
P356
10.1097/PHH.0B013E3181CE594E
P577
2010-05-01T00:00:00Z