Results 61 to 70 of about 176,568 (258)
Expert-Led Securitization: The Case of the 2009 Pandemic in Denmark and Sweden
Politics and Governance, 2020 This article goes beyond the study of speech acts to investigate the process of securitization during a health crisis. The article introduces the concept of ‘expert-led securitization’ to account for situations when experts dominate the administrative ...
Olivier Rubin, Erik Baekkeskov
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, 2009 Examines capacities and challenges in preparing for and responding to an H1N1 flu pandemic, including vaccine issues, confusion with seasonal flu, strain on medical systems, and erosion of public health infrastructure.
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Influenza A nucleoprotein binding sites for antivirals: current research and future potential [PDF]
, 2014 This document is the Accepted Manuscript version of the following article: Andreas Kukol and Hershna Patel, ‘Influenza A nucleoprotein binding sites for antivirals: current research and future potential’, Future Biology, Vol 9(7): 625-627, July 2014. The
Kukol, A, Kukol, A, Patel, H., Patel, H.
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H1N1 influenza – pandemic, 2009 [PDF]
Orvosi Hetilap, 2009 2009 márciusában egy új, addig csak sertésekben kimutatott influenza A-vírus H1N1-szubtípusa okozott emberi megbetegedéseket Mexikóban, majd három hónap alatt a föld minden régiójában elterjedt. Bár a mortalitás aránya alapján az új H1N1-fertőzések nem súlyosabbak a szezonális influenzajárványoknál, a gyors és globális terjedés miatt az Egészségügyi ...
János, Osztovits +2 more
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MVP Inhibits Influenza A Virus‐Induced Ferroptosis by Targeting IRF1 and Increasing FSP1 Activity
Advanced Science, EarlyView.During IAV infection, MVP inhibits IRF1 polyubiquitination, thereby relieving IRF1‐mediated transcriptional inhibition of FSP1. Consequently, this leads to an upregulation of FSP1 expression, thereby reinforcing the inhibition of ferroptosis. In addition, the MVP can promote myristoylation and ubiquitination of FSP1, enabling its membrane localization ...
Yingbo Chen +12 more
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Acta Veterinaria, 2014 The 2009 outbreak of H1N1 influenza A viruses in humans underscored the importance of pigs in influenza A virus evolution and the emergence of novel viruses with pandemic potential.
Mašić Aleksandar +4 more
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Clinical Evaluation of Cases of Pandemic H1N1 Influenza in Sanliurfa Province in Epidemic Period
Acta Medica Alanya, 2018 Aim: In this study, we aimed to share our experience with 75 patients admitted to the hospital who adhered to the definition of influenza-like illness.Patients and Methods: Pandemic 2009 influenza positive and negative cases with RNA (ribonucleic acid ...
Halil Kazanasmaz +4 more
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Peroxidase‐Mimicking Nanozymes for Rapid Detection of Infectious Diseases
Advanced Science, EarlyView.Peroxidase‐mimicking nanozymes (PMNs) have emerged as robust and versatile materials for rapid infectious disease diagnostics. This review highlights the rational design and controlled synthesis of PMNs, summarizes key biomarkers relevant to infectious diseases, examines their integration into diverse rapid detection platforms, and highlights ...
Shikuan Shao +5 more
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Health–Related Practices among Some Egyptian School Children during The H1N1 Pandemic
Journal of High Institute of Public Health, 2010 Background: Swine influenza was recognized as a threatening health problem in the world. Thus, The Ministry of Health and population in Egypt took aggressive actions to prevent this serious health hazard. Several interventions were directed to schools.
Laila M. Kamel +3 more
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MANAGEMENT PATIENT OF SWINE INFLUENZA
Indonesian Journal of Tropical and Infectious Disease, 2015 Influenza is an acute respiratory diseases caused by various influenza virus which infect the upper and lower respiratory tract and often accompanied by systemic symptoms such as fever, headache and muscle pain. Influenza spreads through the air.
Endra Gunawan, Nasronudin Nasronudin
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