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Extrinsic Incubation Period of Dengue: Knowledge, Backlog, and Applications of Temperature Dependence

2013; Public Library of Science; Volume: 7; Issue: 6 Linguagem: Inglês

10.1371/journal.pntd.0002207

1935-2735

Nils Tjaden, Stephanie Margarete Thomas, Dominik Fischer, Carl Beierkuhnlein,

Viral Infections and Vectors

Summary of the dataobtained from the literature. Thistable provides information about the diffe-rent experimental studies, including studymaterial used and methodological details.The duration until the first observedtransmission or infection of SG at a giventemperature is given for each study.(XLS) References 1. World Health Organization (2012) Dengue andsevere dengue. Available: http://www.who.int/mediacentre/factsheets/fs117/en/. Accessed 11July 2012.2. Louis C (2012) Daily newspaper view of denguefever epidemic, Athens, Greece, 1927–1931.Emerg Infect Dis 18: 78–82.3. Schmidt-Chanasit J, Haditsch M, Scho¨neberg I,Gu¨nther S, Stark K, et al. (2010) Dengue virusinfection in a traveller returning from Croatia toGermany. Euro Surveill 15: 2–3.4. LaRucheG,Souare`s Y, Armengaud A, Peloux-Petiot F, Delaunay P, et al. (2010) First twoautochthonous dengue virus infections in metropol-itan France, September 2010. Euro Surveill 15: 2–6.5. Sousa C, Clairouin M, Seixas G, Viveiros B,Novo M, et al. (2012) Ongoing outbreak ofdengue type 1 in the autonomous region ofMadeira, Portugal: preliminary report. EuroSurveill 17: 20333.6. Editors of theAmerican Heritage Dictionaries (2007)The American heritage medical dictionary, revisededition. Boston: Houghton Mifflin Harcourt.7. Dietz K (1993) The estimation of the basicreproduction number for infectious diseases. StatMethods Med Res 2: 23–41.8. Barbazan P, Guiserix M, Boonyuan W, Tunta-prasart W, Pontier D, et al. (2010) Modelling theeffect of temperature on transmission of dengue.Med Vet Entomol 24: 66–73.9. Luz PM, Codec¸o CT, Massad E, Struchiner CJ(2003) Uncertainties regarding dengue modelingin Rio de Janeiro, Brazil. Mem Inst OswaldoCruz 98: 871–878.10. Christofferson RC, Mores CN (2011) Estimatingthe magnitude and direction of altered arbovirustransmission due to viral phenotype. PLoS ONE6: e16298. doi:10.1371/journal.pone.001629811. Paaijmans KP, Read AF, Thomas MB (2009)Understanding the link between malaria risk andclimate.ProcNatlAcadSciUSA106:13844–13849.12. Gubbins S, Carpenter S, Baylis M, Wood JLN,Mellor PS (2008) Assessing the risk of bluetongueto UK livestock: uncertainty and sensitivityanalyses of a temperature-dependent model forthe basic reproduction number. J R Soc Interface5: 363–371.13. Thomas S, Fischer D, Fleischmann S, Bittner T,Beierkuhnlein C (2011) Risk assessment of denguevirus amplification in Europe based on spatio-temporal high resolution climate change projec-tions. Erdkunde 65: 137–150.14. Blanc G, Caminopetros J (1930) Recherchesexperimentales sur la dengue. Ann Inst Pasteur44: 367–436.15. McLean DM, Clarke AM, Coleman JC, Mon-talbetti CA, Skidmore AG, et al. (1974) Vectorcapability of Aedes aegypti mosquitoes for Californiaencephalitis and dengue viruses at various tem-peratures. Can J Microbiol 20: 255–262.16. McLean DM, Miller MA, Grass PN (1975)Dengue virus transmission by mosquitoes incubat-ed at low temperatures. Mosq News 35: 322–327.17. Watts DM, Burke DS, Harrison BA, WhitmireRE, Nisalak A (1987) Effect of temperature on thevector efficiency of Aedes aegypti for dengue 2 virus.Am J Trop Med Hyg 36: 143–152.18. Rohani A, Wong YC, Zamre I, Lee HL, ZuraineeMN (2009) The effect of extrinsic incubationtemperature on development of dengue serotype2 and 4 viruses in Aedes aegypti (L.). SoutheastAsian J Trop Med Public Health 40: 942–950.19. Salazar MI, Richardson JH, Sa´nchez-Vargas I,Olson KE, Beaty BJ (2007) Dengue virus type 2:replication and tropisms in orally infected Aedesaegypti mosquitoes. BMC Microbiol 7: 9.20. Anderson JR, Rico-Hesse R (2006) Aedes aegyptivectorial capacity is determined by the infecting