Potential for a global dynamic of Influenza A (H1N1).
Identifieur interne : 000242 ( Hal/Corpus ); précédent : 000241; suivant : 000243Potential for a global dynamic of Influenza A (H1N1).
Auteurs : Antoine Flahault ; Elisabeta Vergu ; Pierre-Yves BoëlleSource :
- BMC Infectious Diseases [ 1471-2334 ] ; 2009.
Abstract
BACKGROUND: Geographical and temporal diffusion patterns of a human pandemic due to Swine Origin Influenza Virus (S-OIV) remain uncertain. The extent to which national and international pandemic preparedness plans and control strategies can slow or stop the process is not known. However, despite preparedness efforts, it appears that, particularly in the USA, Mexico, Canada and the UK, local chains of virus transmission can sustain autonomous dynamics which may lead to the next pandemic. Forecasts of influenza experts usually rely on information related to new circulating strains. METHODS: We attempted to quantify the possible spread of the pandemic across a network of 52 major cities and to predict the effect of vaccination against the pandemic strain, if available. Predictions are based on simulations from a stochastic SEIR model. Parameters used in the simulations are set to values consistent with recent estimations from the outbreak in Mexico. RESULTS: We show that a two-wave pandemic dynamic may be observed in Southern hemisphere because of seasonal constraints for a maximum value of the basic reproductive number (R0, max) within a city equal to 1.5 and a mean generation interval (GI) of 2 days. In this case and in the absence of vaccination, attack rates may reach 46% when considering a completely susceptible population. More severe scenarios characterized by higher values of R0, max (2.2) and GI (3.1) yield an attack rate of 77%. By extrapolation, we find that mass vaccination in all countries (i.e. up to 50% of the population) implemented 6 months after the start of the pandemic may reduce the cumulative number of cases by 91% in the case of the low transmissible strain (R0, max = 1.5). This relative reduction is only 44% for R0, max = 2.2 since most of the cases occur in the first 6 months and so before the vaccination campaign. CONCLUSION: Although uncertainties remain about the epidemiological and clinical characteristics of the new influenza strain, this study provides the first analysis of the potential spread of the pandemic and first assessment of the impact of different immunization strategies.
Url:
DOI: 10.1186/1471-2334-9-129
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The extent to which national and international pandemic preparedness plans and control strategies can slow or stop the process is not known. However, despite preparedness efforts, it appears that, particularly in the USA, Mexico, Canada and the UK, local chains of virus transmission can sustain autonomous dynamics which may lead to the next pandemic. Forecasts of influenza experts usually rely on information related to new circulating strains. METHODS: We attempted to quantify the possible spread of the pandemic across a network of 52 major cities and to predict the effect of vaccination against the pandemic strain, if available. Predictions are based on simulations from a stochastic SEIR model. Parameters used in the simulations are set to values consistent with recent estimations from the outbreak in Mexico. RESULTS: We show that a two-wave pandemic dynamic may be observed in Southern hemisphere because of seasonal constraints for a maximum value of the basic reproductive number (R0, max) within a city equal to 1.5 and a mean generation interval (GI) of 2 days. In this case and in the absence of vaccination, attack rates may reach 46% when considering a completely susceptible population. More severe scenarios characterized by higher values of R0, max (2.2) and GI (3.1) yield an attack rate of 77%. By extrapolation, we find that mass vaccination in all countries (i.e. up to 50% of the population) implemented 6 months after the start of the pandemic may reduce the cumulative number of cases by 91% in the case of the low transmissible strain (R0, max = 1.5). This relative reduction is only 44% for R0, max = 2.2 since most of the cases occur in the first 6 months and so before the vaccination campaign. CONCLUSION: Although uncertainties remain about the epidemiological and clinical characteristics of the new influenza strain, this study provides the first analysis of the potential spread of the pandemic and first assessment of the impact of different immunization strategies.</p> </div></front></TEI><hal api="V3"> <titleStmt> <title xml:lang="en">Potential for a global dynamic of Influenza A (H1N1).</title> <author role="crp"> <persName> <forename type="first">Antoine</forename> <surname>Flahault</surname> </persName> <email type="md5">7004335ca9ed91f1d1143e10be5bf5a9</email> <email type="domain">ehesp.fr</email> <idno type="halauthorid">684261</idno> <affiliation ref="#struct-301986"></affiliation> <affiliation ref="#struct-3065"></affiliation> </author> <author role="aut"> <persName> <forename type="first">Elisabeta</forename> <surname>Vergu</surname> </persName> <email type="md5">947c41966fd5e80a32d0a45d98fa4033</email> <email type="domain">jouy.inra.fr</email> <idno type="halauthorid">458633</idno> <affiliation ref="#struct-37708"></affiliation> </author> <author role="aut"> <persName> <forename type="first">Pierre-Yves</forename> <surname>Boëlle</surname> </persName> <email type="md5">90a822c7d994fd9f94844cc59465ec3b</email> <email type="domain">u707.jussieu.fr</email> <idno type="idhal" notation="string">pierre-yves-boelle</idno> <idno type="idhal" notation="numeric">172531</idno> <idno type="halauthorid">202491</idno> <idno type="ORCID">https://orcid.org/0000-0002-5367-8232</idno> <affiliation ref="#struct-3065"></affiliation> </author> <editor role="depositor"> <persName> <forename>Ed.</forename> <surname>BMC</surname> </persName> <email type="md5">440c6e58a5bd861e373d54bc5e68a1a4</email> <email type="domain">biomedcentral.com</email> </editor> </titleStmt> <editionStmt> <edition n="v1" type="current"> <date type="whenSubmitted">2012-01-27 13:46:23</date> <date type="whenModified">2020-03-17 03:04:51</date> <date type="whenReleased">2012-03-26 15:08:08</date> <date type="whenProduced">2009</date> <date type="whenEndEmbargoed">2012-01-27</date> <ref type="file" target="https://www.hal.inserm.fr/inserm-00663615/document"> <date notBefore="2012-01-27"></date> </ref> <ref type="file" subtype="greenPublisher" n="1" target="https://www.hal.inserm.fr/inserm-00663615/file/1471-2334-9-129.pdf"> <date notBefore="2012-01-27"></date> </ref> <ref type="annex" subtype="other" n="0" target="https://www.hal.inserm.fr/inserm-00663615/file/1471-2334-9-129.xml"> <date notBefore="2012-01-27"></date> </ref> <ref type="externalLink" target="https://bmcinfectdis.biomedcentral.com/track/pdf/10.1186/1471-2334-9-129"></ref> </edition> <respStmt> <resp>contributor</resp> <name key="151596"> <persName> <forename>Ed.</forename> <surname>BMC</surname> </persName> <email type="md5">440c6e58a5bd861e373d54bc5e68a1a4</email> <email type="domain">biomedcentral.com</email> </name> </respStmt> </editionStmt> <publicationStmt> <distributor>CCSD</distributor> <idno type="halId">inserm-00663615</idno> <idno type="halUri">https://www.hal.inserm.fr/inserm-00663615</idno> <idno type="halBibtex">flahault:inserm-00663615</idno> <idno type="halRefHtml">BMC Infectious Diseases, BioMed Central, 2009, 9 (1), pp.129. ⟨10.1186/1471-2334-9-129⟩</idno> <idno type="halRef">BMC Infectious Diseases, BioMed Central, 2009, 9 (1), pp.129. ⟨10.1186/1471-2334-9-129⟩</idno> </publicationStmt> <seriesStmt> <idno type="stamp" n="INSERM">INSERM - Institut national de la santé et de la recherche médicale</idno> <idno type="stamp" n="INRA">INRA - Institut national de la recherche agronomique</idno> <idno type="stamp" n="UPMC" corresp="SORBONNE-UNIVERSITE">Université Pierre et Marie Curie</idno> <idno type="stamp" n="EHESP">École des hautes études en santé publique</idno> <idno type="stamp" n="USPC">Université Sorbonne Paris Cité</idno> <idno type="stamp" n="AGREENIUM">Archive ouverte en agrobiosciences</idno> <idno type="stamp" n="SORBONNE-UNIVERSITE">Sorbonne Université</idno> <idno type="stamp" n="SANTE_PUB_INSERM" corresp="INSERM">Santé Publique à l'Inserm</idno> <idno type="stamp" n="INRAE">Institut National de Recherche en Agriculture, Alimentation et Environnement</idno> </seriesStmt> <notesStmt> <note type="audience" n="2">International</note> <note type="popular" n="0">No</note> <note type="peer" n="1">Yes</note> </notesStmt> <sourceDesc> <biblStruct> <analytic> <title xml:lang="en">Potential for a global dynamic of Influenza A (H1N1).</title> <author role="crp"> <persName> <forename type="first">Antoine</forename> <surname>Flahault</surname> </persName> <email type="md5">7004335ca9ed91f1d1143e10be5bf5a9</email> <email type="domain">ehesp.fr</email> <idno type="halauthorid">684261</idno> <affiliation ref="#struct-301986"></affiliation> <affiliation ref="#struct-3065"></affiliation> </author> <author role="aut"> <persName> <forename type="first">Elisabeta</forename> <surname>Vergu</surname> </persName> <email type="md5">947c41966fd5e80a32d0a45d98fa4033</email> <email type="domain">jouy.inra.fr</email> <idno type="halauthorid">458633</idno> <affiliation ref="#struct-37708"></affiliation> </author> <author role="aut"> <persName> <forename type="first">Pierre-Yves</forename> <surname>Boëlle</surname> </persName> <email type="md5">90a822c7d994fd9f94844cc59465ec3b</email> <email type="domain">u707.jussieu.fr</email> <idno type="idhal" notation="string">pierre-yves-boelle</idno> <idno type="idhal" notation="numeric">172531</idno> <idno type="halauthorid">202491</idno> <idno type="ORCID">https://orcid.org/0000-0002-5367-8232</idno> <affiliation ref="#struct-3065"></affiliation> </author> </analytic> <monogr> <idno type="halJournalId" status="VALID">337</idno> <idno type="issn">1471-2334</idno> <idno type="eissn">1471-2334</idno> <title level="j">BMC Infectious Diseases</title> <imprint> <publisher>BioMed Central</publisher> <biblScope unit="volume">9</biblScope> <biblScope unit="issue">1</biblScope> <biblScope unit="pp">129</biblScope> <date type="datePub">2009</date> <date type="dateEpub">2009-08-12</date> </imprint> </monogr> <idno type="doi">10.1186/1471-2334-9-129</idno> <idno type="pubmed">19674455</idno> </biblStruct> </sourceDesc> <profileDesc> <langUsage> <language ident="en">English</language> </langUsage> <textClass> <classCode scheme="mesh">Disease Outbreaks</classCode> <classCode scheme="mesh">Humans</classCode> <classCode scheme="mesh">Influenza A Virus, H1N1 Subtype</classCode> <classCode scheme="mesh">Influenza Vaccines</classCode> <classCode scheme="mesh">Influenza, Human</classCode> <classCode scheme="mesh">Models, Biological</classCode> <classCode scheme="mesh">World Health</classCode> <classCode scheme="mesh">Computer Simulation</classCode> <classCode scheme="halDomain" n="sdv.mhep.mi">Life Sciences [q-bio]/Human health and pathology/Infectious diseases</classCode> <classCode scheme="halDomain" n="sdv.spee">Life Sciences [q-bio]/Santé publique et épidémiologie</classCode> <classCode scheme="halTypology" n="ART">Journal articles</classCode> </textClass> <abstract xml:lang="en"> <p>BACKGROUND: Geographical and temporal diffusion patterns of a human pandemic due to Swine Origin Influenza Virus (S-OIV) remain uncertain. The extent to which national and international pandemic preparedness plans and control strategies can slow or stop the process is not known. However, despite preparedness efforts, it appears that, particularly in the USA, Mexico, Canada and the UK, local chains of virus transmission can sustain autonomous dynamics which may lead to the next pandemic. Forecasts of influenza experts usually rely on information related to new circulating strains. METHODS: We attempted to quantify the possible spread of the pandemic across a network of 52 major cities and to predict the effect of vaccination against the pandemic strain, if available. Predictions are based on simulations from a stochastic SEIR model. Parameters used in the simulations are set to values consistent with recent estimations from the outbreak in Mexico. RESULTS: We show that a two-wave pandemic dynamic may be observed in Southern hemisphere because of seasonal constraints for a maximum value of the basic reproductive number (R0, max) within a city equal to 1.5 and a mean generation interval (GI) of 2 days. In this case and in the absence of vaccination, attack rates may reach 46% when considering a completely susceptible population. More severe scenarios characterized by higher values of R0, max (2.2) and GI (3.1) yield an attack rate of 77%. By extrapolation, we find that mass vaccination in all countries (i.e. up to 50% of the population) implemented 6 months after the start of the pandemic may reduce the cumulative number of cases by 91% in the case of the low transmissible strain (R0, max = 1.5). This relative reduction is only 44% for R0, max = 2.2 since most of the cases occur in the first 6 months and so before the vaccination campaign. CONCLUSION: Although uncertainties remain about the epidemiological and clinical characteristics of the new influenza strain, this study provides the first analysis of the potential spread of the pandemic and first assessment of the impact of different immunization strategies.</p> </abstract> </profileDesc> </hal></record>Pour manipuler ce document sous Unix (Dilib)
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