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Items: 1 to 20 of 128

1.

Comparing vector–host and SIR models for dengue transmission.

Pandey A, Mubayi A, Medlock J.

Math Biosci. 2013 Dec;246(2):252-9.

PMID:
24427785
2.

Comparing vector-host and SIR models for dengue transmission.

Pandey A, Mubayi A, Medlock J.

Math Biosci. 2013 Oct 24. pii: S0025-5564(13)00243-5. doi: 10.1016/j.mbs.2013.10.007. [Epub ahead of print]

PMID:
24513244
3.

Morbidity Rate Prediction of Dengue Hemorrhagic Fever (DHF) Using the Support Vector Machine and the Aedes aegypti Infection Rate in Similar Climates and Geographical Areas.

Kesorn K, Ongruk P, Chompoosri J, Phumee A, Thavara U, Tawatsin A, Siriyasatien P.

PLoS One. 2015 May 11;10(5):e0125049. doi: 10.1371/journal.pone.0125049. eCollection 2015.

4.

ELISA as an alternative tool for epidemiological surveillance for dengue in mosquitoes: a report from Thailand.

Srisuphanunt M, Sithiprasasna R, Patpoparn S, Attatippaholkun W, Wiwanitkit V.

J Vector Borne Dis. 2007 Dec;44(4):272-6.

5.

The effects of vector movement and distribution in a mathematical model of dengue transmission.

Chao DL, Longini IM Jr, Halloran ME.

PLoS One. 2013 Oct 21;8(10):e76044. doi: 10.1371/journal.pone.0076044. eCollection 2013.

6.

Impact of daily temperature fluctuations on dengue virus transmission by Aedes aegypti.

Lambrechts L, Paaijmans KP, Fansiri T, Carrington LB, Kramer LD, Thomas MB, Scott TW.

Proc Natl Acad Sci U S A. 2011 May 3;108(18):7460-5. doi: 10.1073/pnas.1101377108. Epub 2011 Apr 18.

7.

Double infection of heteroserotypes of dengue viruses in field populations of Aedes aegypti and Aedes albopictus (Diptera: Culicidae) and serological features of dengue viruses found in patients in southern Thailand.

Thavara U, Siriyasatien P, Tawatsin A, Asavadachanukorn P, Anantapreecha S, Wongwanich R, Mulla MS.

Southeast Asian J Trop Med Public Health. 2006 May;37(3):468-76.

PMID:
17120966
8.

Folk knowledge about dengue mosquitoes and contributions of health belief model in dengue control promotion in Northeast Thailand.

Phuanukoonnon S, Brough M, Bryan JH.

Acta Trop. 2006 Aug;99(1):6-14. Epub 2006 Sep 1.

PMID:
16945318
9.

Potential impact of a presumed increase in the biting activity of dengue-virus-infected Aedes aegypti (Diptera: Culicidae) females on virus transmission dynamics.

Luz PM, Lima-Camara TN, Bruno RV, Castro MG, Sorgine MH, Lourenço-de-Oliveira R, Peixoto AA.

Mem Inst Oswaldo Cruz. 2011 Sep;106(6):755-8.

10.

Relationship between transmission intensity and incidence of dengue hemorrhagic fever in Thailand.

Thammapalo S, Nagao Y, Sakamoto W, Saengtharatip S, Tsujitani M, Nakamura Y, Coleman PG, Davies C.

PLoS Negl Trop Dis. 2008 Jul 16;2(7):e263. doi: 10.1371/journal.pntd.0000263.

11.

Impact of dengue virus infection and its control.

Igarashi A.

FEMS Immunol Med Microbiol. 1997 Aug;18(4):291-300.

12.

Reduction of Aedes aegypti vector competence for dengue virus under large temperature fluctuations.

Carrington LB, Seifert SN, Armijos MV, Lambrechts L, Scott TW.

Am J Trop Med Hyg. 2013 Apr;88(4):689-97. doi: 10.4269/ajtmh.12-0488. Epub 2013 Feb 25.

13.

Global spread and persistence of dengue.

Kyle JL, Harris E.

Annu Rev Microbiol. 2008;62:71-92. doi: 10.1146/annurev.micro.62.081307.163005. Review.

PMID:
18429680
14.

Comparative susceptibility to oral infection with dengue viruses among local strains of Aedes aegypti (Diptera: Culicidae) collected at different seasons of the year.

Thongrungkiat S, Jirakanjanakit N, Apiwathnasorn C, Prummongkol S, Samung Y.

J Vector Ecol. 2003 Dec;28(2):166-70.

PMID:
14714664
15.

Follow up estimation of Aedes aegypti entomological parameters and mathematical modellings.

Yang HM, Macoris Mde L, Galvani KC, Andrighetti MT.

Biosystems. 2011 Mar;103(3):360-71. doi: 10.1016/j.biosystems.2010.11.002. Epub 2010 Nov 17.

16.

Threshold conditions for a non-autonomous epidemic system describing the population dynamics of dengue.

Coutinho FA, Burattini MN, Lopez LF, Massad E.

Bull Math Biol. 2006 Nov;68(8):2263-82. Epub 2006 Sep 2. Erratum in: Bull Math Biol. 2007 Aug;69(6):2117.

PMID:
16952019
17.

Modeling the transmission dynamics of dengue fever: implications of temperature effects.

Chen SC, Hsieh MH.

Sci Total Environ. 2012 Aug 1;431:385-91. doi: 10.1016/j.scitotenv.2012.05.012. Epub 2012 Jun 15.

PMID:
22705874
18.

The complex relationship between weather and dengue virus transmission in Thailand.

Campbell KM, Lin CD, Iamsirithaworn S, Scott TW.

Am J Trop Med Hyg. 2013 Dec;89(6):1066-80. doi: 10.4269/ajtmh.13-0321. Epub 2013 Aug 19.

19.

A comparison of dengue hemorrhagic fever control interventions in northeastern Thailand.

Chaikoolvatana A, Chanruang S, Pothaled P.

Southeast Asian J Trop Med Public Health. 2008 Jul;39(4):617-24.

PMID:
19058598
20.

Phylogeography and molecular epidemiology of an epidemic strain of dengue virus type 1 in Sri Lanka.

Ocwieja KE, Fernando AN, Sherrill-Mix S, Sundararaman SA, Tennekoon RN, Tippalagama R, Krishnananthasivam S, Premawansa G, Premawansa S, De Silva AD.

Am J Trop Med Hyg. 2014 Aug;91(2):225-34. doi: 10.4269/ajtmh.13-0523. Epub 2014 May 5.

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