Multiscale modeling of influenza A virus infection supports the development of direct-acting antivirals - Wikidata - awgldk - TriplyDB

Multiscale modeling of influenza A virus infection supports the development of direct-acting antivirals

Multiscale modeling of influenza A virus infection supports the development of direct-acting antivirals

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Modeling Influenza Virus Infection: A Roadmap for Influenza Research Viral kinetic modeling: state of the art Compounds with anti-influenza activity: present and future of strategies for the optimal treatment and management of influenza. Part II: Future compounds against influenza virus Using Clinical Trial Simulators to Analyse the Sources of Variance in Clinical Trials of Novel Therapies for Acute Viral Infections.Competitive fitness of influenza B viruses with neuraminidase inhibitor-resistant substitutions in a coinfection model of the human airway epithelium Innate Immunity and the Inter-exposure Interval Determine the Dynamics of Secondary Influenza Virus Infection and Explain Observed Viral Hierarchies Viral RNA Degradation and Diffusion Act as a Bottleneck for the Influenza A Virus Infection Efficiency.Analysis of Practical Identifiability of a Viral Infection Model Single-cell analysis and stochastic modelling unveil large cell-to-cell variability in influenza A virus infection.Multiscale modelling in immunology: a review.Facing the challenges of multiscale modelling of bacterial and fungal pathogen-host interactions.How sticky should a virus be? The impact of virus binding and release on transmission fitness using influenza as an example.A complete categorization of multiscale models of infectious disease systems.Determining drug efficacy parameters for mathematical models of influenza.Cell culture-based production of defective interfering particles for influenza antiviral therapy.A comparison of RSV and influenza in vitro kinetic parameters reveals differences in infecting time.Mathematical Analysis of Viral Replication Dynamics and Antiviral Treatment Strategies: From Basic Models to Age-Based Multi-Scale Modeling Investigating Different Mechanisms of Action in Combination Therapy for Influenza

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Multiscale modeling of influenza A virus infection supports the development of direct-acting antivirals

http://www.wikidata.org/entity/Q28535330

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JOURNAL.PCBI.1003372

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PLOS Computational Biology

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Antje Pflugmacher

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Britta Peschel

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Robin Gröpler

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Timo Frensing

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Udo Reichl

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1918 Influenza: the mother of all pandemics

Influenza A virus neuraminidase limits viral superinfection

Influence of membrane (M) protein on influenza A virus virion transcriptase activity in vitro and its susceptibility to rimantadine

Anti-influenza virus activities of 4-substituted 2,4-dioxobutanoic acid inhibitors

A review of mathematical models of influenza A infections within a host or cell culture: lessons learned and challenges ahead

Neuraminidase inhibitor resistance in influenza: assessing the danger of its generation and spread

Influenza A virus infection kinetics: quantitative data and models.

Effect of 1918 PB1-F2 expression on influenza A virus infection kinetics.

Small molecule inhibitors of influenza A and B viruses that act by disrupting subunit interactions of the viral polymerase.

Antivirals in seasonal and pandemic influenza--future perspectives.

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10.1371/JOURNAL.PCBI.1003372

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