Articles: pandemics.
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We describe characteristics of patients admitted to our intensive care unit with severe acute respiratory illness and influenza-like syndrome during the first months of the pandemic influenza A(H1N1) 2009 in Argentina. We analyzed clinical data, severity scores, laboratory tests, microbiological and radiological findings at admission, clinical outcomes and in-hospital mortality. H1N1 was confirmed by RT-PCR. ⋯ There were no differences in analyzed variables when comparing H1N1 positive and H1N1 negative patients; which suggests this approach as a most correct in future epidemic outbreaks. H1N1 infection was associated with severe respiratory illness and ARDS. Fatal outcome was observed in very old patients, or in those with major co-morbidities.
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The 2009 H1N1 influenza virus (formerly known as swine flu) first appeared in Mexico and the United States in March and April 2009 and has swept the globe with unprecedented speed as a result of airline travel. On June 11, 2009, the World Health Organization raised its pandemic level to the highest level, Phase 6, indicating widespread community transmission on at least two continents. The 2009 H1N1 virus contains a unique combination of gene segments from human, swine and avian influenza A viruses. ⋯ Bacterial co-infection has played a significant role in fatal cases. The case of fatality has been estimated at around 0.4%. Mathematical modeling suggests that the effect of novel influenza virus can be reduced by immunization, but the question remains: can we produce enough H1N1 vaccine to beat the pandemic?
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Zhonghua Liu Xing Bing Xue Za Zhi · Nov 2009
[Personal protective and healthcare seeking behaviors urban residents before and during an influenza pandemic in Beijing].
To provide evidence-based recommendations to the government on strategies for reducing the impact of the imminent influenza pandemic, we conducted a survey on the personal protective and healthcare seeking behaviors of Beijing residents in the wake of the worldwide epidemic of the novel 2009 H1N1 influenza virus, and potential changes in these behaviors during a full-blown pandemic. ⋯ Beijing residents need to be aware of the proper ways to cover their noses when sneezing (especially using their sleeves more), and to wash their hands. An effective plan to triage patients should be immediately established to efficiently utilize the limited healthcare resources, which would likely be further strained during a pandemic.
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Historical Article
Closing the schools: lessons from the 1918-19 U.S. influenza pandemic.
When the novel strain of A/H1N1 influenza first appeared in spring 2009, closing schools was initially a common and often challenging strategy implemented in many communities. Arguments for and against closing schools are likely to arise anew if influenza spikes in the fall of 2009. ⋯ Analysis of the school closure policies of forty-three U. S. cities during that pandemic shows that smooth implementation was associated with clear lines of authority among agencies and with transparent communication between health officials and the public.
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Sporadic outbreaks of epizootics including SARS coronavirus and H5N1 avian influenza remind us of the potential for communicable diseases to quickly spread into worldwide epidemics. To confront emerging viral threats, nations have implemented strategies to prepare for pandemics and to control virus spread. Despite improved surveillance and quarantine measures, we find ourselves in the midst of a H1N1 influenza pandemic. ⋯ The best route to effective therapeutics and vaccines is through a detailed and global view of virus-host interactions that can be achieved using a systems biology approach. Here, we provide our perspective on the role of systems biology in deepening our understanding of virus-host interactions and in improving drug and vaccine development. We offer examples from influenza virus research, as well as from research on other pandemics of our time - HIV/AIDS and HCV - to demonstrate that systems biology offers one possible key to stopping the cycle of viral pandemics.