Simulation and prediction of the adaptive immune response to influenza A virus infection
about
Modeling Influenza Virus Infection: A Roadmap for Influenza ResearchLive Imaging of Influenza Infection of the Trachea Reveals Dynamic Regulation of CD8+ T Cell Motility by AntigenA review of mathematical models of influenza A infections within a host or cell culture: lessons learned and challenges aheadNeonatal oxygen increases sensitivity to influenza A virus infection in adult mice by suppressing epithelial expression of Ear1Multiscale modeling of influenza A virus infection supports the development of direct-acting antiviralsImpact of different oseltamivir regimens on treating influenza A virus infection and resistance emergence: insights from a modelling studyExploring cell tropism as a possible contributor to influenza infection severityUnderstanding the within-host dynamics of influenza A virus: from theory to clinical implicationsA spatial model of the efficiency of T cell search in the influenza-infected lung.Dynamics of influenza virus infection and pathology.Quantifying the early immune response and adaptive immune response kinetics in mice infected with influenza A virus.Multi-epitope Models Explain How Pre-existing Antibodies Affect the Generation of Broadly Protective Responses to InfluenzaOseltamivir PK/PD Modeling and Simulation to Evaluate Treatment Strategies against Influenza-Pneumococcus Coinfection.Host adaptive immunity deficiency in severe pandemic influenza.Higher level of replication efficiency of 2009 (H1N1) pandemic influenza virus than those of seasonal and avian strains: kinetics from epithelial cell culture and computational modelingInfluenza A virus infection kinetics: quantitative data and models.Effect of 1918 PB1-F2 expression on influenza A virus infection kinetics.Simulating the decentralized processes of the human immune system in a virtual anatomy model.An accurate two-phase approximate solution to an acute viral infection modelExploring the effect of biological delays in kinetic models of influenza within a host or cell cultureModeling within-host dynamics of influenza virus infection including immune responsesA large-scale immuno-epidemiological simulation of influenza A epidemicsLinking influenza virus tissue tropism to population-level reproductive fitnessA mechanistic, multiscale mathematical model of immunogenicity for therapeutic proteins: part 2-model applications.A mechanistic, multiscale mathematical model of immunogenicity for therapeutic proteins: part 1-theoretical model.Assessing mathematical models of influenza infections using features of the immune response.T cell state transition produces an emergent change detector.A multi-scale analysis of influenza A virus fitness trade-offs due to temperature-dependent virus persistenceReducing uncertainty in within-host parameter estimates of influenza infection by measuring both infectious and total viral load.Population modeling of influenza A/H1N1 virus kinetics and symptom dynamicsGeneralized Ordinary Differential Equation Models.Modeling of influenza-specific CD8+ T cells during the primary response indicates that the spleen is a major source of effectors.The inflammatory response to influenza A virus (H1N1): An experimental and mathematical study.Quantifying Immune Response to Influenza Virus Infection via Multivariate Nonlinear ODE Models with Partially Observed State Variables and Time-Varying Parameters.Innate Immunity and the Inter-exposure Interval Determine the Dynamics of Secondary Influenza Virus Infection and Explain Observed Viral HierarchiesDiversity in Compartmental Dynamics of Gene Regulatory Networks: The Immune Response in Primary Influenza A Infection in Mice.Phenotypic differences in viral immune escape explained by linking within-host dynamics to host-population immunityMathematical Modeling of Viral Zoonoses in WildlifeMars approach for global sensitivity analysis of differential equation models with applications to dynamics of influenza infectionPrediction of treatment efficacy for prostate cancer using a mathematical model.
P2860
Q26782421-575A4D00-E2CB-4555-9D9F-EB7F16198490Q27312029-7004E2E0-F759-445C-9C25-39D25856D78AQ28382972-521C10ED-02C1-411B-A9FB-E41D04BE6B7FQ28512650-91846526-4098-4359-88BB-1AF3B85C771DQ28535330-FBF9083D-BF10-4D03-89B1-8A4FC7BEF5C3Q28537982-E3294742-F0DC-4828-9FD6-59CE8F49176BQ28748187-B0F67259-977E-41ED-A2B1-746159456EFAQ30357678-A72B80DE-2A08-422B-A65C-C33A1D043337Q30384954-E7E667CA-AD0B-4BDA-B77D-9011664D26F8Q30385329-3C2A82ED-224C-44A5-A49A-434EF8476CB4Q30388405-4BA00E48-4E32-496F-ABDF-2F259165617DQ30389700-3E79AF12-9CC4-4049-BF33-F0C473BB6C79Q30390145-4BFF6B7B-6BA4-45E5-97AC-B64226DB4A3EQ30393612-E32D8FD8-04A6-4829-B7EB-F4E7B4FFE38BQ30396110-BB5296E8-8BEC-425E-A254-8816E531734BQ30398031-714F33F6-EE17-4E41-827F-937B0516EC9AQ30400455-07526D31-1C0A-4EE2-980E-C2234F49E680Q31118742-8203F457-59F3-486D-B156-9CFF4D66C346Q33739420-179FB4FA-2884-4936-A844-54F5F3BFD3F8Q33831147-9B9BCBDF-9F1C-4C47-81F0-FE96856C9124Q34325485-A34CCFE7-9037-405F-AAAD-A6DB3E420471Q34326011-4A45C51C-3333-45C5-BED5-5353A0F3AA40Q34404965-32614C44-FEAB-4178-8D41-C09548206729Q34413009-767A0680-6DBD-4B53-B777-54231ED82F31Q34413016-F58BAD0A-CC6D-4974-8227-6CAD679503C1Q34611749-0DE7CB58-883B-43D5-AD3F-8F2F357DA586Q34632299-AFF5908B-5CC9-4C55-B5DC-D47D315E9326Q34649496-7F0D5571-968A-4D54-9CB7-4EDF4B52599AQ34731272-2A0650EA-B878-491E-B880-09D0FFE66351Q34742833-4CF096F5-29BC-4DB3-8BD3-765D88DC6CE9Q34762521-DFADA17D-63FD-428A-B566-62436020BE20Q35403088-A2A4A6C3-FF04-4005-B315-0209F805615CQ35589073-28449584-58FF-4D0E-889F-93098EEB1202Q35738006-BAE23555-B238-4D48-ACA8-B87F25A8D8C6Q35748822-CCDC3D62-FDDB-42BA-BC22-2F3005D52864Q35790294-9783F230-4316-41F5-AC43-C57DACA0873AQ35955894-4CBB3F23-84E8-4D78-B1C4-B4FC575A7CD0Q35982583-6EAA44B9-59CF-4E11-8576-9FD8BEF86FC4Q36394934-815F393D-F2A7-4676-9D8C-E13763892C73Q36574383-4140B95A-9831-44A6-B2EC-D70A19B88B51
P2860
Simulation and prediction of the adaptive immune response to influenza A virus infection
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 13 May 2009
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Simulation and prediction of the adaptive immune response to influenza A virus infection
@en
Simulation and prediction of the adaptive immune response to influenza A virus infection.
@nl
type
label
Simulation and prediction of the adaptive immune response to influenza A virus infection
@en
Simulation and prediction of the adaptive immune response to influenza A virus infection.
@nl
prefLabel
Simulation and prediction of the adaptive immune response to influenza A virus infection
@en
Simulation and prediction of the adaptive immune response to influenza A virus infection.
@nl
P2093
P2860
P356
P1433
P1476
Simulation and prediction of the adaptive immune response to influenza A virus infection
@en
P2093
Brian M Ward
David J Topham
Ha Youn Lee
Hongyu Miao
Jeanne Holden-Wiltse
John Treanor
Joseph Hollenbaugh
Martin Zand
Sung Yong Park
P2860
P304
P356
10.1128/JVI.00098-09
P407
P577
2009-05-13T00:00:00Z