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Items: 1 to 20 of 79

1.

Evaluation of a rapid analyte measurement platform for West Nile virus detection based on United States mosquito control programs.

Kesavaraju B, Farajollahi A, Lampman RL, Hutchinson M, Krasavin NM, Graves SE, Dickson SL.

Am J Trop Med Hyg. 2012 Aug;87(2):359-63.

2.

Comparative field analyses of rapid analyte measurement platform and reverse transcriptase polymerase chain reaction assays for West Nile virus surveillance.

Williges E, Farajollahi A, Nelder MP, Gaugler R.

J Vector Ecol. 2009 Dec;34(2):324-8. doi: 10.1111/j.1948-7134.2009.00041.x.

3.

Evaluation of a rapid analyte measurement platform and real-time reverse-transcriptase polymerase chain reaction assay West Nile virus detection system in mosquito pools.

Burkhalter KL, Horiuchi K, Biggerstaff BJ, Savage HM, Nasci RS.

J Am Mosq Control Assoc. 2014 Mar;30(1):21-30.

PMID:
24772673
4.

Evaluating the Use of Commercial West Nile Virus Antigens as Positive Controls in the Rapid Analyte Measurement Platform West Nile Virus Assay.

Burkhalter KL, Savage HM.

J Am Mosq Control Assoc. 2015 Dec;31(4):371-4. doi: 10.2987/moco-31-04-371-374.1.

PMID:
26675461
5.

Use of an internal positive control in a multiplex reverse transcription-PCR to detect West Nile virus RNA in mosquito pools.

Eisler DL, McNabb A, Jorgensen DR, Isaac-Renton JL.

J Clin Microbiol. 2004 Feb;42(2):841-3.

6.

Field and laboratory evaluation of diagnostic assays for detecting West Nile virus in oropharyngeal swabs from California wild birds.

Padgett KA, Cahoon-Young B, Carney R, Woods L, Read D, Husted S, Kramer V.

Vector Borne Zoonotic Dis. 2006 Summer;6(2):183-91.

PMID:
16796516
7.

A Simple Modification to the Mosquito Homogenization Protocol Safely Inactivates West Nile Virus and Allows Virus Detection by the Rapid Analyte Measurement Platform (RAMP®) ASSAY.

Burkhalter KL, Biggerstaff BJ, Horiuchi K, Savage HM.

J Am Mosq Control Assoc. 2016 Jun;32(2):77-82. doi: 10.2987/moco-32-02-77-82.1.

PMID:
27280345
8.

[Investigation of West Nile virus in central nervous system infections of unknown etiology in Ankara, Turkey].

Ergünay K, Aydoğan S, Menemenlioğlu D, Sener B, Lederer S, Steinhagen K, Hasçelik G, Pinar A, Ozkul A, Us D.

Mikrobiyol Bul. 2010 Apr;44(2):255-62. Turkish.

PMID:
20549960
10.

Highly sensitive TaqMan RT-PCR assay for detection and quantification of both lineages of West Nile virus RNA.

Tang Y, Anne Hapip C, Liu B, Fang CT.

J Clin Virol. 2006 Jul;36(3):177-82. Epub 2006 May 3.

PMID:
16675298
11.

Molecular detection and characterization of West Nile virus associated with multifocal retinitis in patients from southern India.

Shukla J, Saxena D, Rathinam S, Lalitha P, Joseph CR, Sharma S, Soni M, Rao PV, Parida M.

Int J Infect Dis. 2012 Jan;16(1):e53-9. doi: 10.1016/j.ijid.2011.09.020. Epub 2011 Nov 17.

12.

High-throughput detection of West Nile virus RNA.

Shi PY, Kauffman EB, Ren P, Felton A, Tai JH, Dupuis AP 2nd, Jones SA, Ngo KA, Nicholas DC, Maffei J, Ebel GD, Bernard KA, Kramer LD.

J Clin Microbiol. 2001 Apr;39(4):1264-71.

13.

Detection of arboviral RNA directly from mosquito homogenates by reverse-transcription-polymerase chain reaction.

Huang C, Slater B, Campbell W, Howard J, White D.

J Virol Methods. 2001 May;94(1-2):121-8.

PMID:
11337046
14.

Diagnostic sensitivity and specificity of in situ hybridization and immunohistochemistry for Eastern equine encephalitis virus and West Nile virus in formalin-fixed, paraffin-embedded brain tissue of horses.

Pennick KE, McKnight CA, Patterson JS, Latimer KS, Maes RK, Wise AG, Kiupel M.

J Vet Diagn Invest. 2012 Mar;24(2):333-8. doi: 10.1177/1040638711435230.

PMID:
22379048
15.

Real-time reverse transcriptase-polymerase chain reaction quantification of West Nile virus transmitted by Culex pipiens quinquefasciatus.

Vanlandingham DL, Schneider BS, Klingler K, Fair J, Beasley D, Huang J, Hamilton P, Higgs S.

Am J Trop Med Hyg. 2004 Jul;71(1):120-3.

PMID:
15238700
16.

Importance of vertical and horizontal transmission of West Nile virus by Culex pipiens in the Northeastern United States.

Anderson JF, Main AJ.

J Infect Dis. 2006 Dec 1;194(11):1577-9. Epub 2006 Oct 18. Erratum in: J Infect Dis. 2006 Dec 15;194(12):1800.

PMID:
17083043
17.

[Investigation of West Nile virus RNA in blood donors by real-time RT-PCR].

Sahiner F, Avcı IY, Bedir O, Koru O, Sener K, Yapar M, Kubar A.

Mikrobiyol Bul. 2012 Jul;46(3):464-9. Turkish.

PMID:
22951658
18.

Detection of West Nile virus-specific antibodies and nucleic acid in horses and mosquitoes, respectively, in Nuevo Leon State, northern Mexico, 2006-2007.

Ibarra-Juarez L, Eisen L, Bolling BG, Beaty BJ, Blitvich BJ, Sanchez-Casas RM, Ayala-Sulca YO, Fernandez-Salas I.

Med Vet Entomol. 2012 Sep;26(3):351-4. doi: 10.1111/j.1365-2915.2012.01014.x. Epub 2012 Apr 10.

PMID:
22490106
19.

Assays to detect West Nile virus in dead birds.

Stone WB, Therrien JE, Benson R, Kramer L, Kauffman EB, Eldson M, Campbell S.

Emerg Infect Dis. 2005 Nov;11(11):1770-3.

20.

Detection of West Nile virus in formalin-fixed, paraffin-embedded human tissues by RT-PCR: a useful adjunct to conventional tissue-based diagnostic methods.

Bhatnagar J, Guarner J, Paddock CD, Shieh WJ, Lanciotti RS, Marfin AA, Campbell GL, Zaki SR.

J Clin Virol. 2007 Feb;38(2):106-11. Epub 2006 Dec 8.

PMID:
17161650

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