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Djogbenou L, Chandre F, Berthomieu A, Dabire R, Koffi A, Alout H, Weill M: Evidence of introgression of the ace-1(R) mutation and of the ace-1 duplication in West African Anopheles gambiae s. s. PLoS onE 2008, 3(5):e2172; Ffrench-Constant RH: The molecular and population genetics of cyclodiene insecticide resistance. Insect Biochem Mol Biol 1994, 24(4):335-345… [1] Djogbenou L, Chandre F, Berthomieu A, Dabire R, Koffi A, Alout H, Weill M: Evidence of introgression of the ace-1(R) mutation and of the ace-1 duplication in West African Anopheles gambiae s. s. PLoS onE 2008, 3(5):e2172. [2] Ffrench-Constant RH: The molecular and population genetics of cyclodiene insecticide resistance. Insect Biochem Mol Biol 1994, 24(4):335-345. [3] Andreasen MH, Ffrench-Constant RH: In situ hybridization to the Rdl locus on polytene chromosome 3L of Anopheles stephensi. Med Vet Entomol 2002, 16(4):452-455. [4] Du W, Awolola TS, Howell P, Koekemoer LL, Brooke BD, Benedict MQ, Coetzee M, Zheng L: Independent mutations in the Rdl locus confer dieldrin resistance to Anopheles gambiae and An. arabiensis. Insect Mol Biol 2005, 14(2):179-183. [5] Davies TG, Field LM, Usherwood PN, Williamson MS: DDT, pyrethrins, pyrethroids and insect sodium channels. IUBMB Life 2007, 59(3):151-162. [6] Donnelly MJ, Corbel V, Weetman D, Wilding CS, Williamson MS, Black WCt: Does kdr genotype predict insecticide-resistance phenotype in mosquitoes? Trends Parasitol 2009, 25(5):213-219. [7] Martinez Torres D, Chandre F, Williamson MS, Darriet F, Berge JB, Devonshire AL, Guillet P, Pasteur N, Pauron D: Molecular characterization of pyrethroid knockdown resistance (kdr) in the major malaria vector Anopheles gambiae s.s. Insect Molecular Biology 1998, 7(2):179-184. [8] Ranson H, Jensen B, Vulule JM, Wang X, Hemingway J, Collins FH: Identification of a point mutation in the voltage-gated sodium channel gene of Kenyan Anopheles gambiae associated with resistance to DDT and pyrethroids. Insect Molecular Biology 2000, 9(5):491-497.
[9] O'Reilly AO, Khambay BP, Williamson MS, Field LM, Wallace BA, Davies TG: Modelling insecticide-binding sites in the voltage-gated sodium channel. Biochem J 2006, 396(2):255-263. [10] Jones CM, Liyanapathirana M, Agossa FR, Weetman D, Ranson H, Donnelly MJ, Wilding CS: Footprints of positive selection associated with a mutation (N1575Y) in the voltage-gated sodium channel of Anopheles gambiae. Proc Natl Acad Sci U S A 2012, 109(17):6614-6619. [11] Plapp FW, Jr.: The genetic basis of insecticide resistance in the house fly: evidence that a single locus plays a major role in metabolic resistance to insecticides. Pesticide Biochemistry and Physiology 1984, 22(2):194-201.
[12] Georghiou GP, Ariaratnam V, Pasternak ME, Lin CS: Organophosphorus multiresistance in Culex pipiens quinquefasciatus in California. Journal of Economic Entomology 1975, 68(4):461-467. [13] Vontas J, David JP, Nikou D, Hemingway J, Christophides GK, Louis C, Ranson H: Transcriptional analysis of insecticide resistance in Anopheles stephensi using crossspecies microarray hybridization. Insect Mol Biol 2007, 16(3):315-324. [14] Awolola TS, Oduola OA, Strode C, Koekemoer LL, Brooke B, Ranson H: Evidence of multiple pyrethroid resistance mechanisms in the malaria vector Anopheles gambiae sensu stricto from Nigeria. Trans R Soc Trop Med Hyg 2009, 103(11):1139-1145. [15] Wood O, Hanrahan S, Coetzee M, Koekemoer L, Brooke B: Cuticle thickening associated with pyrethroid resistance in the major malaria vector Anopheles funestus. Parasit Vectors 2010, 3:67. [16] Roberts DR, Chareonviriyaphap T, Harlan HH, Hshieh P: Methods of testing and analyzing excito-repellency responses of malaria vectors to insecticides. J Am Mosq Control Assoc 1997, 13(1):13-17. [17] Chandre F, Darriet F, Duchon S, Finot L, Manguin S, Carnevale P, Guillet P: Modifications of pyrethroid effects associated with kdr mutation in Anopheles gambiae. Medical and Veterinary Entomology 2000, 14(1):81-88. [18] Gahan JB, Lindquist AW: DDT residual sprays applied in buildings to control Anopheles quadrimaculatus. Journal of Economic Entomology 1945, 38 (2):223-230. [19] Chareonviriyaphap T, Roberts DR, Andre RG, Harlan HJ, Manguin S, Bangs MJ: Pesticide avoidance behavior in Anopheles albimanus, a malaria vector in the Americas. J Am Mosq Control Assoc 1997, 13(2):171-183. [20] Garros C, Marchand RP, Quang NT, Hai NS, Manguin S: First record of Anopheles minimus C and significant decrease of An. minimus A in central Vietnam. J Am Mosq Control Assoc 2005, 21(2):139-143. [21] Russell TL, Govella NJ, Azizi S, Drakeley CJ, Kachur SP, Killeen GF: Increased proportions of outdoor feeding among residual malaria vector populations following increased use of insecticide-treated nets in rural Tanzania. Malar J 2011, 10:80. [22] Moiroux N, Gomez MB, Pennetier C, Elanga E, Djenontin A, Chandre F, Djegbe I, Guis H, Corbel V: Changes in Anopheles funestus Biting Behavior Following Universal Coverage of Long-Lasting Insecticidal Nets in Benin. J Infect Dis 2012, 206(10): 1622-1629. [23] WHO: Guidelines for testing mosquito adulticides intended for Indoor Residual Spraying (IRS) and Insecticide Treated Nets (ITNs). 2006, WHO/CDS/NTD/WHOPES/GCDDP/2006.3. [24] WHO: Report of the WHO Informal Consultation Tests procedures for insecticide resistance monitoring in malaria vectors, bio-efficacy and persistence of insecticides on treated surfaces. In. Geneva: World Health Organization: Parasitic Diseases and Vector Control (PVC)/Communicable Disease Control, Prevention and Eradication (CPE); 1998: 43.
[25] Williams J, Pinto J: Training Manual on Malaria Entomology; For Entomology and Vector Control Technicians (Basic Level) In. Edited by USAID. Washington, D.C.; 2012: 78. [26] Ranson H, Abdallah H, Badolo A, Guelbeogo WM, Kerah-Hinzoumbe C, Yangalbe-Kalnone E, Sagnon N, Simard F, Coetzee M: Insecticide resistance in Anopheles gambiae: data from the first year of a multi-country study highlight the extent of the problem. Malar J 2009, 8(1):299. [27] Skovmand O, Bonnet J, Pigeon O, Corbel V: Median knock-down time as a new method for evaluating insecticide-treated textiles for mosquito control. Malar J 2008, 7:114. [28] Brogdon WG, McAllister JC: Simplification of adult mosquito bioassays through use of time-mortality determinations in glass bottles. J Am Mosq Control Assoc 1998, 14(2): 159-164. [29] World Health Organization: Techniques to detect insecticide resistance mechanisms (field and laboratory manual). In. Edited by WHO/CDS/CPC/MAL/98.6 WHO. Geneva: World Health Organization; 1998. [30] Munhenga G, Masendu HT, Brooke BD, Hunt RH, Koekemoer LK: Pyrethroid resistance in the major malaria vector Anopheles arabiensis from Gwave, a malaria-endemic area in Zimbabwe. Malar J 2008, 7:247. [31] Okoye PN, Brooke BD, Koekemoer LL, Hunt RH, Coetzee M: Characterisation of DDT, pyrethroid and carbamate resistance in Anopheles funestus from Obuasi, Ghana. Trans R Soc Trop Med Hyg 2008, 102(6):591-598. [32] Kelly-Hope L, Ranson H, Hemingway J: Lessons from the past: managing insecticide resistance in malaria control and eradication programmes. Lancet Infect Dis 2008. [33] Chouaibou M, Etang J, Brevault T, Nwane P, Hinzoumbe CK, Mimpfoundi R, Simard F: Dynamics of insecticide resistance in the malaria vector Anopheles gambiae s.l. from an area of extensive cotton cultivation in Northern Cameroon. Trop Med Int Health 2008, 13(4):476-486. [34] Djegbe I, Boussari O, Sidick A, Martin T, Ranson H, Chandre F, Akogbeto M, Corbel V: Dynamics of insecticide resistance in malaria vectors in Benin: first evidence of the presence of L1014S kdr mutation in Anopheles gambiae from West Africa. Malaria Journal 2011, 10(1):261. [35] Dabire KR, Diabate A, Pare-Toe L, Rouamba J, Ouari A, Fontenille D, Baldet T: Year to year and seasonal variations in vector bionomics and malaria transmission in a humid savannah village in west Burkina Faso. J Vector Ecol 2008, 33(1):70-75. [36] Bass C, Nikou D, Donnelly MJ, Williamson MS, Ranson H, Ball A, Vontas J, Field LM: Detection of knockdown resistance (kdr) mutations in Anopheles gambiae: a comparison of two new high-throughput assays with existing methods. Malar J 2007, 6:111.
[37] Corbel V, N'Guessan R, Brengues C, Chandre F, Djogbenou L, Martin T, Akogbeto M, Hougard JM, Rowland M: Multiple insecticide resistance mechanisms in Anopheles gambiae and Culex quinquefasciatus from Benin, West Africa. Acta Trop 2007, 101(3): 207-216. [38] Diabate A: The Role of Agricultural Uses of Insecticides in Resistance to Pyrethroids in Anopheles gambiae S.L. in Burkina Faso. Am J Trop Med Hyg 2002, 67(6):617-622. [39] Carnevale P, Toto JC, Guibert P, Keita M, Manguin S: Entomological survey and report of a knockdown resistance mutation in the malaria vector Anopheles gambiae from the Republic of Guinea. Trans R Soc Trop Med Hyg, 104(7):484-489. [40] Yawson AE, McCall PJ, Wilson MD, Donnelly MJ: Species abundance and insecticide resistance of Anopheles gambiae in selected areas of Ghana and Burkina Faso. Med Vet Entomol 2004, 18(4):372-377. [41] C. Fanello VP, A. della Torre, F. Santolamazza, G. Dolo, M. Coulibaly, A. Alloueche, C. F. Curtis, Y. T. Touré and M. Coluzzi: The pyrethroid knock-down resistance gene in the Anopheles gambiae complex in Mali and further indication of incipient speciation within An. gambiae s.s. Insect Molecular Biology 2003, 12(3):241-245. [42] Czeher C, Labbo R, Arzika I, Duchemin J-B: Evidence of increasing Leu-Phe knockdown resistance mutation in Anopheles gambiae from Niger following a nationwide long-lasting insecticide-treated nets implementation. Malaria Journal 2008, 7(1):189. [43] Awolola TS, Brooke BD, Hunt RH, Coetze M: Resistance of the malaria vector Anopheles gambiae s.s. to pyrethroid insecticides, in south-western Nigeria. Annals of Tropical Medicine and Parasitology 2002, 96(8):849-852. [44] Koffi AA, Alou LP, Adja MA, Kone M, Chandre F, N'Guessan R: Update on resistance status of Anopheles gambiae s.s. to conventional insecticides at a previous WHOPES field site, "Yaokoffikro", 6 years after the political crisis in Cote d'Ivoire. Parasit Vectors 2012, 5:68.
[45] Dabire KR, Diabate A, Agostinho F, Alves F, Manga L, Faye O, Baldet T: Distribution of the members of Anopheles gambiae and pyrethroid knock-down resistance gene (kdr) in Guinea-Bissau, West Africa. Bull Soc Pathol Exot 2008, 101(2):119-123. [46] Etang J, Fondjo E, Chandre F, Morlais I, Brengues C, Nwane P, Chouaibou M, Ndjemai H, Simard F: First report of knockdown mutations in the malaria vector Anopheles gambiae from Cameroon. Am J Trop Med Hyg 2006, 74(5):795-797. [47] Ndjemai HN, Patchoke S, Atangana J, Etang J, Simard F, Bilong CF, Reimer L, Cornel A, Lanzaro GC, Fondjo E: The distribution of insecticide resistance in Anopheles gambiae s.l. populations from Cameroon: an update. Trans R Soc Trop Med Hyg 2009. [48] Nwane P, Etang J, Chouaibou M, Toto JC, Kerah-Hinzoumbe C, Mimpfoundi R, Awono-Ambene HP, Simard F: Trends in DDT and pyrethroid resistance in Anopheles gambiae s.s. populations from urban and agro-industrial settings in southern Cameroon. BMC Infect Dis 2009, 9:163. [49] Kerah-Hinzoumbe C, Peka M, Nwane P, Donan-Gouni I, Etang J, Same-Ekobo A, Simard F: Insecticide resistance in Anopheles gambiae from south-western Chad, Central Africa. Malar J 2008, 7:192. [50] Janeira F, Vicente JL, Kanganje Y, Moreno M, Do Rosario VE, Cravo P, Pinto J: A primer-introduced restriction analysis-polymerase chain reaction method to detect knockdown resistance mutations in Anopheles gambiae. J Med Entomol 2008, 45(2): 237-241. [51] Mourou JR, Coffinet T, Jarjaval F, Pradines B, Amalvict R, Rogier C, Kombila M, Pages F: Malaria transmission and insecticide resistance of Anopheles gambiae in Libreville and Port-Gentil, Gabon. Malar J 2010, 9:321. [52] Himeidan YE, Chen H, Chandre F, Donnelly MJ, Yan G: Short report: permethrin and DDT resistance in the malaria vector Anopheles arabiensis from eastern Sudan. Am J Trop Med Hyg 2007, 77(6):1066-1068. [53] Abdalla H, Matambo TS, Koekemoer LL, Mnzava AP, Hunt RH, Coetzee M: Insecticide susceptibility and vector status of natural populations of Anopheles arabiensis from Sudan. Transactions of the Royal Society of Tropical Medicine and Hygiene 2008, 102(3):263-271.
[54] Costantini C, Ayala D, Guelbeogo WM, Pombi M, Some CY, Bassole IH, Ose K, Fotsing JM, Sagnon N, Fontenille D et al: Living at the edge: biogeographic patterns of habitat segregation conform to speciation by niche expansion in Anopheles gambiae. BMC Ecol 2009, 9(1):16. [55] Kulkarni MA, Malima R, Mosha FW, Msangi S, Mrema E, Kabula B, Lawrence B, Kinung'hi S, Swilla J, Kisinza W et al: Efficacy of pyrethroid-treated nets against malaria vectors and nuisance-biting mosquitoes in Tanzania in areas with long-term insecticide-treated net use. Trop Med Int Health 2007, 12(9):1061-1073. [56] Kabula B, Tungu P, Matowo J, Kitau J, Mweya C, Emidi B, Masue D, Sindato C, Malima R, Minja J et al: Susceptibility status of malaria vectors to insecticides commonly used for malaria control in Tanzania. Trop Med Int Health 2012, 17(6):742-750. [57] Coleman M, Casimiro S, Hemingway J, Sharp B: Operational impact of DDT reintroduction for malaria control on Anopheles arabiensis in Mozambique. J Med Entomol 2008, 45(5):885-890. [58] Ratovonjato J, Le Goff G, Rajaonarivelo E, Rakotondraibe EM, Robert V: [Recent observations on the sensitivity to pyrethroids and DDT of Anopheles arabiensis and Anopheles funestus in the central Highlands of Madagascar; preliminary results on the absence of the kdr mutation in An. arabiensis]. Arch Inst Pasteur Madagascar 2003, 69(1-2):63-69. [59] Ramphul U, Boase T, Bass C, Okedi LM, Donnelly MJ, Muller P: Insecticide resistance and its association with target-site mutations in natural populations of Anopheles gambiae from eastern Uganda. Trans R Soc Trop Med Hyg 2009. [60] Verhaeghen K, Bortel WV, Roelants P, Okello PE, Talisuna A, Coosemans M: Spatiotemporal patterns in kdr frequency in permethrin and DDT resistant Anopheles gambiae s.s. from Uganda. Am J Trop Med Hyg 2010, 82(4):566-573. [61] Abate A, Hadis M: Susceptibility of Anopheles gambiae s.l. to DDT, malathion, permethrin and deltamethrin in Ethiopia. Trop Med Int Health 2011, 16(4):486-491. [62] Ochomo E, Bayoh MN, Brogdon WG, Gimnig JE, Ouma C, Vulule JM, Walker ED: Pyrethroid resistance in Anopheles gambiae s.s. and Anopheles arabiensis in western Kenya: phenotypic, metabolic and target site characterizations of three populations. Med Vet Entomol 2012. [63] Mathias DK, Ochomo E, Atieli F, Ombok M, Bayoh MN, Olang G, Muhia D, Kamau L, Vulule JM, Hamel MJ et al: Spatial and temporal variation in the kdr allele L1014S in Anopheles gambiae s.s. and phenotypic variability in susceptibility to insecticides in Western Kenya. Malar J 2011, 10:10. [64] Chanda E, Hemingway J, Kleinschmidt I, Rehman AM, Ramdeen V, Phiri FN, Coetzer S, Mthembu D, Shinondo CJ, Chizema-Kawesha E et al: Insecticide resistance and the future of malaria control in Zambia. PLoS onE 2011, 6(9):e24336. [65] Mouatcho JC, Munhenga G, Hargreaves K, Brooke BD, Coetzee M, Koekemoer LL: Pyrethroid resistance in a major African malaria vector Anopheles arabiensis from Mamfene, northern KwaZulu-Natal, South Africa. South African Journal of Science 2009, 105(3-4):127-131. [66] Mouatcho JC, Hargreaves K, Koekemoer LL, Brooke BD, Oliver SV, Hunt RH, Coetzee M: Indoor collections of the Anopheles funestus group (Diptera: Culicidae) in sprayed houses in northern KwaZulu-Natal, South Africa. Malar J 2007, 6:30. [67] Brooke BD, Kloke G, Hunt RH, Koekemoer LL, Temu EA, Taylor ME, Small G, Hemingway J, Coetzee M: Bioassay and biochemical analyses of insecticide resistance in southern African Anopheles funestus (Diptera: Culicidae). Bulletin of Entomological Research 2001, 91(4):265-272. [68] Cuamba N, Morgan JC, Irving H, Steven A, Wondji CS: High level of pyrethroid resistance in an Anopheles funestus population of the Chokwe District in Mozambique. PLoS onE 2010, 5(6):e11010. [69] Kloke RG, Nhamahanga E, Hunt RH, Coetzee M: Vectorial status and insecticide resistance of Anopheles funestus from a sugar estate in southern Mozambique. Parasit Vectors 2011, 4:16. [70] Hunt R, Edwardes M, Coetzee M: Pyrethroid resistance in southern African Anopheles funestus extends to Likoma Island in Lake Malawi. Parasit Vectors 2010, 3:122. [71] Wondji CS, Coleman M, Kleinschmidt I, Mzilahowa T, Irving H, Ndula M, Rehman A, Morgan J, Barnes KG, Hemingway J: Impact of pyrethroid resistance on operational malaria control in Malawi. Proc Natl Acad Sci U S A 2012, 109(47):19063-19070. [72] Anto F, Asoala V, Anyorigiya T, Oduro A, Adjuik M, Owusu-Agyei S, Dery D, Bimi L, Hodgson A: Insecticide resistance profiles for malaria vectors in the Kassena-Nankana district of Ghana. Malaria Journal 2009, 8(1):81. [73] Djouaka R, Irving H, Tukur Z, Wondji CS: Exploring mechanisms of multiple insecticide resistance in a population of the malaria vector Anopheles funestus in Benin. PloS onE 2011, 6(11):e27760. [74] Dabire KR, Baldet T, Diabate A, Dia I, Costantini C, Cohuet A, Guiguemde TR, Fontenille D: Anopheles funestus (Diptera: Culicidae) in a humid savannah area of western Burkina Faso: bionomics, insecticide resistance status, and role in malaria transmission. J Med Entomol 2007, 44(6):990-997. [75] Faraj C, Adlaoui E, Brengues C, Fontenille D, Lyagoubi M: [Resistance of Anopheles labranchiae to DDT in Morocco: identification of the mechanisms and choice ofreplacement insecticide]. Eastern Mediterranean health journal = La revue de sante de la Mediterranee orientale = al-Majallah al-sihhiyah li-sharq al-mutawassit 2008, 14(4):776-783. [76] Mostafa AA, Allam KA: Studies on the present status of insecticides resistance on mosquitoes using the diagnostic dosages in El-Fayium Governorate, a spot area of malaria in Egypt. J Egypt Soc Parasitol 2001, 31(1):177-186. [77] Balkew M, Elhassan I, Ibrahim M, GebreMichael T, Engers H: Very high DDT-resistant population of Anopheles pharoensis Theobald (Diptera: Culicidae) from Gorgora, northern Ethiopia. Parasite 2006, 13(4):327-239. [78] Yadouleton AW, Padonou G, Asidi A, Moiroux N, Bio-Banganna S, Corbel V, N'Guessan R, Gbenou D, Yacoubou I, Gazard K et al: Insecticide resistance status in Anopheles gambiae in southern Benin. Malar J 2010, 9:83. [79] Pinto J, Lynd A, Vicente JL, Santolamazza F, Randle NP, Gentile G, Moreno M, Simard F, Charlwood JD, do Rosario VE et al: Multiple Origins of Knockdown Resistance Mutations in the Afrotropical Mosquito Vector Anopheles gambiae. PLoS onE 2007, 2(11):e1243. [80] della Torre A, Fanello C, Akogbeto M, Dossou-yovo J, Favia G, Petrarca V, Coluzzi M: Molecular evidence of incipient speciation within Anopheles gambiae s.s. in West Africa. Insect Mol Biol 2001, 10(1):9-18. [81] Weill M, Chandre F, Brengues C, Manguin S, Akogbeto M, Pasteur N, Guillet P, Raymond M: The kdr mutation occurs in the Mopti form of Anopheles gambiae s.s. through introgression. Insect Molecular Biology 2000, 9(5):451-455. [82] Reimer LJ, Tripet F, Slotman M, Spielman A, Fondjo E, Lanzaro GC: An unusual distribution of the kdr gene among populations of Anopheles gambiae on the island of Bioko, Equatorial Guinea. Insect Mol Biol 2005, 14(6):683-688. [83] Protopopoff N, Verhaeghen K, Van Bortel W, Roelants P, Marcotty T, Baza D, D'Alessandro U, Coosemans M: A significant increase in kdr in Anopheles gambiae is associated with an intensive vector control intervention in Burundi highlands. Trop Med Int Health 2008, 13(12):1479-1487. [84] Pinto J, Lynd A, Elissa N, Donnelly MJ, Costa C, Gentile G, Caccone A, do Rosario VE: Co-occurrence of East and West African kdr mutations suggests high levels of resistance to pyrethroid insecticides in Anopheles gambiae from Libreville, Gabon. Med Vet Entomol 2006, 20(1):27-32. [85] Moreno M, Vicente JL, Cano J, Berzosa PJ, de Lucio A, Nzambo S, Bobuakasi L, Buatiche JN, ondo M, Micha F et al: Knockdown resistance mutations (kdr) and insecticide susceptibility to DDT and pyrethroids in Anopheles gambiae from Equatorial Guinea. Trop Med Int Health 2008, 13(3):430-433. [86] Verhaeghen K, Van Bortel W, Roelants P, Backeljau T, Coosemans M: Detection of the East and West African kdr mutation in Anopheles gambiae and Anopheles arabiensis from Uganda using a new assay based on FRET/Melt Curve analysis. Malaria Journal 2006, 5(1):16. [87] Koekemoer LL, Spillings BL, Christian RN, Lo TC, Kaiser ML, Norton RA, Oliver SV, Choi KS, Brooke BD, Hunt RH et al: Multiple insecticide resistance in Anopheles gambiae (Diptera: Culicidae) from Pointe Noire, Republic of the Congo. Vector Borne Zoonotic Dis 2011, 11(8):1193-1200. [88] Reimer L, Fondjo E, Patchoke S, Diallo B, Lee Y, Ng A, Ndjemai HM, Atangana J, Traore SF, Lanzaro G et al: Relationship between kdr mutation and resistance to pyrethroid and DDT insecticides in natural populations of Anopheles gambiae. J Med Entomol 2008, 45(2):260-266. [89] Badolo A, Traore A, Jones CM, Sanou A, Flood L, Guelbeogo WM, Ranson H, Sagnon N: Three years of insecticide resistance monitoring in Anopheles gambiae in Burkina Faso: resistance on the rise? Malar J 2012, 11:232. [90] Santolamazza F, Calzetta M, Etang J, Barrese E, Dia I, Caccone A, Donnelly MJ, Petrarca V, Simard F, Pinto J et al: Distribution of knock-down resistance mutations in 624 Anopheles mosquitoes - New insights into malaria vectors Anopheles gambiae molecular forms in west and west-central Africa. Malar J 2008, 7(1): 74. [91] Ridl F, Bass C, Torrez M, Govender D, Ramdeen V, Yellot L, Edu A, Schwabe C, Mohloai P, Maharaj R et al: A pre-intervention study of malaria vector abundance in Rio Muni, Equatorial Guinea: Their role in malaria transmission and the incidence of insecticide resistance alleles. Malaria Journal 2008, 7(1):194. [92] Reimer L, Fondjo E, Patchok, Salomon, Diallo B, Lee Y, Ng A, Ndjemai HM, Atangana J, Traore SF et al: Relationship Between kdr Mutation and Resistance to Pyrethroid and DDT Insecticides in Natural Populations of Anopheles gambiae. Journal of Medical Entomology 2008, 45:260-266. [93] Matambo TS, Abdalla H, Brooke BD, Koekemoer LL, Mnzava A, Hunt RH, Coetzee M: Insecticide resistance in the malarial mosquito Anopheles arabiensis and association with the kdr mutation. Medical and Veterinary Entomology 2007, 21(1):97-102. [94] Kulkarni M, Rowland M, Alifrangis M, Mosha F, Matowo J, Malima R, Peter J, Kweka E, Lyimo I, Magesa S et al: Occurrence of the leucine-to-phenylalanine knockdown resistance (kdr) mutation in Anopheles arabiensis populations in Tanzania, detected by a simplified high-throughput SSOP-ELISA method. Malaria Journal 2006, 5(1):56. [95] Chen H, Githeko AK, Githure JI, Mutunga J, Zhou G, Yan G: Monooxygenase Levels and Knockdown Resistance (kdr) Allele Frequencies in Anopheles gambiae and Anopheles arabiensis in Kenya. Journal of Medical Entomology 2008, 45:242-250. [96] Etang J, Manga L, Toto JC, Guillet P, Fondjo E, Chandre F: Spectrum of metabolicbased resistance to DDT and pyrethroids in Anopheles gambiae s.l. populations from Cameroon. J Vector Ecol 2007, 32(1):123-133. [97] Hargreaves K, Hunt RH, Brooke BD, Mthembu J, Weeto MM, Awolola TS, Coetzee M: Anopheles arabiensis and An. quadriannulatus resistance to DDT in South Africa. Med Vet Entomol 2003, 17(4):417-422. [98] Amenya DA, Naguran R, Lo TC, Ranson H, Spillings BL, Wood OR, Brooke BD, Coetzee M, Koekemoer LL: Over expression of a cytochrome P450 (CYP6P9) in a major African malaria vector, Anopheles funestus, resistant to pyrethroids. Insect Mol Biol 2008, 17(1):19-25. [99] Somboon P, Prapanthadara LA, Suwonkerd W: Insecticide susceptibility tests of Anopheles minimus s.l., Aedes aegypti, Aedes albopictus, and Culex quinquefasciatus in northern Thailand. Southeast Asian J Trop Med Public Health 2003, 34(1):87-93. [100] Verhaeghen K, Van Bortel W, Trung HD, Sochantha T, Coosemans M: Absence of knockdown resistance suggests metabolic resistance in the main malaria vectors of the Mekong region. Malar J 2009, 8:84. [101] Chareonviriyaphap T, Rongnoparut P, Chantarumporn P, Bangs MJ: Biochemical detection of pyrethroid resistance mechanisms in Anopheles minimus in Thailand. J Vector Ecol 2003, 28(1):108-116. [102] Rodpradit P, Boonsuepsakul S, Chareonviriyaphap T, Bangs MJ, Rongnoparut P: Cytochrome P450 genes: molecular cloning and overexpression in a pyrethroid-resistant strain of Anopheles minimus mosquito. J Am Mosq Control Assoc 2005, 21(1):71-79. [103] Verhaeghen K, Van Bortel W, Trung HD, Sochantha T, Keokenchanh K, Coosemans M: Knockdown resistance in Anopheles vagus, An. sinensis, An. paraliae and An. peditaeniatus populations of the Mekong region. Parasit Vectors 2011, 3(1):59. [104] Kang S, Jung J, Lee S, Hwang H, Kim W: The polymorphism and the geographical distribution of the knockdown resistance (kdr) of Anopheles sinensis in the Republic of Korea. Malar J 2012, 11:151. [105] Tan WL, Wang ZM, Li CX, Chu HL, Xu Y, Dong YD, Wang ZC, Chen DY, Liu H, Liu DP et al: First report on co-occurrence knockdown resistance mutations and susceptibility to beta-cypermethrin in Anopheles sinensis from Jiangsu Province, China. PloS onE 2012, 7(1):e29242. [106] Syafruddin D, Hidayati AP, Asih PB, Hawley WA, Sukowati S, Lobo NF: Detection of 1014F kdr mutation in four major Anopheline malaria vectors in Indonesia. Malar J 2010, 9:315. [107] Singh OP, Dykes CL, Das MK, Pradhan S, Bhatt RM, Agrawal OP, Adak T: Presence of two alternative kdr-like mutations, L1014F and L1014S, and a novel mutation, V1010L, in the voltage gated Na+ channel of Anopheles culicifacies from Orissa, India. Malar J 2010, 9:146. [108] Mishra AK, Chand SK, Barik TK, Dua VK, Raghavendra K: Insecticide resistance status in Anopheles culicifacies in Madhya Pradesh, central India. J Vector Borne Dis 2012, 49(1):39-41. [109] Sharma SN, Shukla RP, Raghavendra K: Susceptibility status of An. fluviatilis and An.culicifacies to DDT, deltamethrin and lambdacyhalothrin in District Nainital, Uttar Pradesh. Indian J Malariol 1999, 36(3-4):90-93. [110] Singh OP, Dykes CL, Lather M, Agrawal OP, Adak T: Knockdown resistance (kdr)-like mutations in the voltage-gated sodium channel of a malaria vector Anopheles stephensi and PCR assays for their detection. Malar J 2011, 10:59. [111] Tikar SN, Mendki MJ, Sharma AK, Sukumaran D, Veer V, Prakash S, Parashar BD: Resistance status of the malaria vector mosquitoes, Anopheles stephensi and Anopheles subpictus towards adulticides and larvicides in arid and semi-arid areas of India. J InsectSci 2011, 11:85. [112] Baruah K, Lal S: A report on the susceptibility status of Anopheles minimus (Theobald) against DDT and deltamethrin in three districts of Assam. J Vector Borne Dis 2004, 41(1-2):42-44. [113] Karunaratne SH, Hemingway J: Malathion resistance and prevalence of the malathion carboxylesterase mechanism in populations of mosquito vectors of disease in Sri Lanka. Bull World Health Organ 2001, 79(11):1060-1064. [114] Kelly-Hope LA, Yapabandara AM, Wickramasinghe MB, Perera MD, Karunaratne SH, Fernando WP, Abeyasinghe RR, Siyambalagoda RR, Herath PR, Galappaththy GN et al: Spatiotemporal distribution of insecticide resistance in Anopheles culicifacies and Anopheles subpictus in Sri Lanka. Trans R Soc Trop Med Hyg 2005, 99(10):751-761. [115] Perera MD, Hemingway J, Karunaratne SP: Multiple insecticide resistance mechanisms involving metabolic changes and insensitive target sites selected in anopheline vectors of malaria in Sri Lanka. Malar J 2008, 7:168. [116] Surendran SN, Jude PJ, Weerarathne TC, Parakrama Karunaratne SH, Ramasamy R: Variations in susceptibility to common insecticides and resistance mechanisms among morphologically identified sibling species of the malaria vector Anopheles subpictus in Sri Lanka. Parasit Vectors 2012, 5:34. [117] Mittal PK, Wijeyaratne P, Pandey S: Status of Insecticide Resistance of Malaria, Kalaazar and Japanese Encephalitis Vectors in Bangladesh, Bhutan, India and Nepal (BBIN). In. Edited by Project EH. Washington 2004. [118] Rowland M: Location ofthe gene for malathion resistance in Anopheles stephensi (Diptera: Culicidae) from Pakistan. J Med Entomol 1985, 22(4):373-380. [119] Abai MR, Mehravaran A, Vatandoost H, Oshaghi MA, Javadian E, Mashayekhi M, Mosleminia A, Piyazak N, Edallat H, Mohtarami F et al: Comparative performance of imagicides on Anopheles stephensi, main malaria vector in a malarious area, southern Iran. J Vector Borne Dis 2008, 45(4):307-312. [120] Lak SH, vatandoost H, Entezarmahdi MR, Ashraf H, Abai MR, Nazari M: Monitoring of Insecticide Resistance in Anopheles sacharovi (Favre, 1903) in Borderline of Iran, Armenia, Naxcivan and Turkey, 2001. Iranian J Publ Health 2002, 31(3-4):96-99. [121] Vatandoost H, Mashayekhi M, Abaie MR, Aflatoonian MR, Hanafi-Bojd AA, Sharifi I: Monitoring of insecticides resistance in main malaria vectors in a malarious area of Kahnooj district, Kerman province, southeastern Iran. J Vector Borne Dis 2005, 42(3): 100-108. [122] Malcolm CA: Current status of pyrethroid resistance in anophelines. Parasitol Today 1988, 4(7):S13-15. [123] Quinones ML, Suarez MF: Irritability to DDT of natural populations of the primary malaria vectors in Colombia. J Am Mosq Control Assoc 1989, 5(1):56-59. [124] Suarez MF, Quinones ML, Palacios JD, Carrillo A: First record of DDT resistance in Anopheles darlingi. J Am Mosq Control Assoc 1990, 6(1):72-74. [125] Fonseca-Gonzalez I: Estatus de la resistencia a insecticidas de los vectores primarios de malaria y dengue en Antioquia, Chocó, Norte de Santander y Putumayo, Colombia. Universidad de Antioquia, Colombia; 2008. [126] Fonseca-Gonzalez I, Cardenas R, Quinones ML, McAllister J, Brogdon WG: Pyrethroid and organophosphates resistance in Anopheles (N.) nuneztovari Gabaldon populations from malaria endemic areas in Colombia. Parasitol Res 2009, 105(5):1399-1409. [127] Chareonviriyaphap T, Golenda CF, Roberts DR, Andre RG: Identification of Elevated Esterase Activity in a Pyrethroid-Resistant Population of Anopheles albimanus Wiedemann. ScienceAsia 1999, 25 153-156. [128] Brogdon WG, McAllister JC, Corwin AM, Cordon Rosales C: Independent selection of multiple mechanisms for pyrethroid resistance in Guatemalan Anopheles albimanus (Diptera: Culicidae). Journal of Economic Entomology 1999, 92(2):298-302. [129] Zamora Perea E, Balta Leon R, Palomino Salcedo M, Brogdon WG, Devine GJ: Adaptation and evaluation of the bottle assay for monitoring insecticide resistance in disease vector mosquitoes in the Peruvian Amazon. Malar J 2009, 8:208. [130] Hemingway J, Penilla RP, Rodriguez AD, James BM, Edge W, Rogers H, Rodriguez MH: Resistance management strategies in malaria vector mosquito control. A largescale field trial in Southern Mexico. Pesticide Science 1997, 51(3):375-382. [131] Dzul FA, Patricia Penilla R, Rodriguez AD: [Susceptibility and insecticide resistance mechanisms in Anopheles albimanus from the southern Yucatan Peninsula, Mexico]. Salud Publica Mex 2007, 49(4):302-311. [132] South Africa Department of Health: Malaria Updates. In. Pretoria, S.A: S.A.D.H.; 2003. [133] Maharaj R, Mthembu DJ, Sharp BL: Impact of DDT re-introduction on malaria transmission in KwaZulu-Natal. S Afr Med J 2005, 95(11):871-874. [134] Roberts DR, Manguin S, Mouchet J: DDT house spraying and re-emerging malaria. Lancet 2000, 356(9226):330-332. [135] Protopopoff N, Van Bortel W, Marcotty T, Van Herp M, Maes P, Baza D, D'Alessandro U, Coosemans M: Spatial targeted vector control in the highlands of Burundi and its impact on malaria transmission. Malar J 2007, 6:158. [136] Trape J-F, Tall A, Diagne N, Ndiath O, Ly AB, Faye J, Dieye-Ba F, Roucher C, Bouganali C, Badiane A et al: Malaria morbidity and pyrethroid resistance after the introduction of insecticide-treated bednets and artemisinin-based combination therapies: a longitudinal study. The Lancet Infectious Diseases 2011. [137] Lengeler C: Insecticide-treated bed nets and curtains for preventing malaria. Cochrane Database of Systematic reviews 2009(2):1-58. [138] Kitau J, Oxborough RM, Tungu PK, Matowo J, Malima RC, Magesa SM, Bruce J, Mosha FW, Rowland MW: Species shifts in the Anopheles gambiae complex: do LLINs successfully control Anopheles arabiensis? PLoS onE 2012, 7(3):e31481. [139] Bradley J, Matias A, Schwabe C, Vargas D, Monti F, Nseng G, Kleinschmidt I: Increased risks of malaria due to limited residual life of insecticide and outdoor biting versus protection by combined use of nets and indoor residual spraying on Bioko Island, Equatorial Guinea. Malar J 2012, 11:242. [140] Henry MC, Assi SB, Rogier C, Dossou-Yovo J, Chandre F, Guillet P, Carnevale P: Protective efficacy of lambda-cyhalothrin treated nets in Anopheles gambiae pyrethroid resistance areas of Cote d'Ivoire. Am J Trop Med Hyg 2005, 73(5):859-864. [141] Corbel V, Akogbeto M, Damien GB, Djenontin A, Chandre F, Rogier C, Moiroux N, Chabi J, Banganna B, Padonou GG et al: Combination of malaria vector control interventions in pyrethroid resistance area in Benin: a cluster randomised controlled trial. Lancet Infect Dis 2012, 12(8):617-626. [142] Darriet F, N' Guessan R, Koffi AA, Konan L, Doannio JMC, Chandre F, Carnevale P: Impact of the resistance to pyrethroids on the efficacy of impregnated bednets used as a means of prevention against malaria: results of the evaluation carried out with deltamethrin SC in experimental huts. Bulletin de la Société de Pathologie Exotique 2000, 93(2):131-134. [143] Corbel V, Chandre F, Brengues C, Akogbeto M, Lardeux F, Hougard JM, Guillet P: Dosage-dependent effects of permethrin-treated nets on the behaviour of Anopheles gambiae and the selection of pyrethroid resistance. Malar J 2004, 3(1):22. [144] N'Guessan R, Corbel V, Akogbeto M, Rowland M: Reduced efficacy of insecticidetreated nets and indoor residual spraying for malaria control in pyrethroid resistance area, Benin. Emerg Infect Dis 2007, 13(2):199-206. [145] N'Guessan R, Asidi A, Boko P, Odjo A, Akogbeto M, Pigeon O, Rowland M: An experimental hut evaluation of PermaNet(R) 3.0, a deltamethrin-piperonyl butoxide combination net, against pyrethroid-resistant Anopheles gambiae and Culex quinquefasciatus mosquitoes in southern Benin. Trans R Soc Trop Med Hyg 2010, 104(12):758-765. [146] Asidi A, N'Guessan R, Akogbeto M, Curtis C, Rowland M: Loss of household protection from use of insecticide-treated nets against pyrethroid-resistant mosquitoes, Benin. Emerg Infect Dis 2012, 18(7):1101-1106. [147] Osse R, Gnanguenon V, Sezonlin M, Aikpon R, Padonou G, Yadouleton A, Akogbeto M: Relationship between the presence of kdr and Ace-1 mutations and the infection with Plasmodium falciparum in Anopheles gambiae s.s. in Benin. Journal of Parassitology & Vector Biology 2012, 4(3):31-39. [148] Moiroux N, Boussari O, Djenontin A, Damien G, Cottrell G, Henry MC, Guis H, Corbel V: Dry season determinants of malaria disease and net use in Benin, West Africa. PLoS onE 2012, 7(1):e30558. [149] Poupardin R, Reynaud S, Strode C, Ranson H, Vontas J, David JP: Cross-induction of detoxification genes by environmental xenobiotics and insecticides in the mosquito Aedes aegypti: impact on larval tolerance to chemical insecticides. Insect Biochem Mol Biol 2008, 38(5):540-551. [150] IRAC: Prevention and Management of Insecticide Resistance in Vectors of Public Health Importance In: Resistance Management for Sustainable Agriculture and Improved Public Health : Second Edition 2010 Insecticide Resistance Action Commitee; 2010: 72pp. [151] Georghiou GP, Taylor CE: Genetic and biological influences in the evolution of insecticide resistance. Journal of Economic Entomology 1977, 70(3):319-323. [152] Denholm I, Rowland MW: Tactics for managing pesticide resistance in arthropods: theory and practice. Annu Rev Entomol 1992, 37:91-112. [153] Djogbenou L, Weill M, Hougard JM, Raymond M, Akogbeto M, Chandre F: Characterization of insensitive acetylcholinesterase (ace-1R) in Anopheles gambiae (Diptera: Culicidae): resistance levels and dominance. J Med Entomol 2007, 44(5):805-810. [154] Berticat C, Bonnet J, Duchon S, Agnew P, Weill M, Corbel V: Costs and benefits of multiple resistance to insecticides for Culex quinquefasciatus mosquitoes. BMC Evol Biol 2008, 8:104. [155] Moore JH, Williams SM: Traversing the conceptual divide between biological and statistical epistasis: systems biology and a more modern synthesis. Bioessays 2005, 27(6):637-646. [156] Shono T, Zhang L, Scott JG: Indoxacarb resistance in the house fly, Musca domestica. Pesticide Biochemistry and Physiology 2004, 80(2):106-112. [157] Shono T, Kasai S, Kamiya E, Kono Y, Scott JG: Genetics and mechanisms of permethrin resistance in the YPER strain of house fly. Pesticide Biochemistry and Physiology 2002, 73(1):27-36. [158] Scott JG, Shono T, Georghiou GP: Genetic analysis of permethrin resistance in the house fly, Musca domestica L. Experientia 1984, 40(12):1416-1418. [159] Hardstone MC, Leichter CA, Scott JG: Multiplicative interaction between the two major mechanisms of permethrin resistance, kdr and cytochrome P450-monooxygenase detoxification, in mosquitoes. J Evol Biol 2009, 22(2):416-423. [160] Berticat C, Boquien G, Raymond M, Chevillon C: Insecticide resistance genes induce a mating competition cost in Culex pipiens mosquitoes. Genet Res 2002, 79(1):41-47. [161] Agnew P, Berticat C, Bedhomme S, Sidobre C, Michalakis Y: Parasitism increases and decreases the costs of insecticide resistance in mosquitoes. Evolution Int J Org Evolution 2004, 58(3):579-586. [162] Foster SP, Harrington R, Devonshire AL, Denholm I, Devine GJ, Kenward MG: Comparative survival of insecticide-susceptible and resistant peach-potato aphids, Myzus persicae (Sulzer) (Hemiptera: Aphididae), in low temperature field trials. Bull Ent Res 1996, 86:17-27. [163] Shi MA, Lougarre A, Alies C, Fremaux I, Tang ZH, Stojan J, Fournier D: Acetylcholinesterase alterations reveal the fitness cost of mutations conferring insecticide resistance. BMC Evol Biol 2004, 4:5. [164] Djogbenou L, Noel V, Agnew P: Costs of insensitive acetylcholinesterase insecticide resistance for the malaria vector Anopheles gambiae homozygous for the G119S mutation. Malar J 2010, 9(1):12. [165] Brogdon WG, McAllister JC: Insecticide resistance and vector control. Emerg Infect Dis 1998, 4(4):605-613. [166] Diabate A, Baldet T, Chandre F, Akoobeto M, Guiguemde TR, Darriet F, Brengues C, Guillet P, Hemingway J, Small GJ et al: The role of agricultural use of insecticides in resistance to pyrethroids in Anopheles gambiae s.l. in Burkina Faso. Am J Trop Med Hyg 2002, 67(6):617-622. [167] Yadouleton A, Martin T, Padonou G, Chandre F, Asidi A, Djogbenou L, Dabire R, Aikpon R, Boko M, Glitho I et al: Cotton pest management practices and the selection of pyrethroid resistance in Anopheles gambiae population in northern Benin. Parasit Vectors 2011, 4:60. [168] Harrison G: Mosquitoes, malaria and man: A history of hostilities since 1880.; 1978. [169] Read AF, Lynch PA, Thomas MB: How to make evolution-proof insecticides for malaria control. PLoS Biol 2009, 7(4):e1000058. [170] Roush RT, Hoy CW, Ferro DN, Tingey WM: Insecticide resistance in the Colorado potato beetle (Coleoptera: Chrysomelidae): influence of crop rotation and insecticide use. Journal of Economic Entomology 1990, 83(2):315-319. [171] Georghiou GP: Insecticide resistance and prospects for its management. Residue Reviews 1980, 76:131-145. [172] Tabashnik BE: Managing resistance with multiple pesticide tactics: theory, evidence, and recommendations. J Econ Entomol 1989, 82(5):1263-1269. [173] Chitnis N, Schapira A, Smith T, Steketee R: Comparing the effectiveness of malaria vector-control interventions through a mathematical model. Am J Trop Med Hyg 2010, 83(2):230-240. Distribution, Mechanisms, Impact and Management of Insecticide Resistance in Malaria Vectors: A Pragmatic Review [174] Yakob L, Dunning R, Yan G: Indoor residual spray and insecticide-treated bednets for malaria control: theoretical synergisms and antagonisms. J R Soc Interface 2011, 8(59):799-806. [175] World Health Organization: Global strategic framework for integrated vector management. Geneva; 2004. [176] Curtis CF: Theoretical models of the use of insecticide mixtures for management of resistance. Bull Ent Res 1985, 75: 259-265. [177] Hougard JM, Poudiougo P, Guillet P, Back C, Akpoboua LK, Quillevere D: Criteria for the selection of larvicides by the onchocerciasis Control Programme in west Africa. Ann Trop Med Parasitol 1993, 87(5):435-442. [178] WHO: Pesticides and their application for the control of vectors and pests of public health importance; Sixth edition. In. Edited by WHO/CDS/NTD/WHOPES/GCDPP/2006.1 WHO, Geneva; 2006: 1-125. [179] Corbel V, Chabi J, Dabire RK, Etang J, Nwane P, Pigeon O, Akogbeto M, Hougard JM: Field efficacy of a new mosaic long-lasting mosquito net (PermaNet 3.0) against pyrethroid-resistant malaria vectors: a multi centre study in Western and Central Africa. Malar J 2010, 9:113. [180] Killeen GF, Okumu FO, N'Guessan R, Coosemans M, Adeogun A, Awolola S, Etang J, Dabire RK, Corbel V: The importance of considering community-level effects when selecting insecticidal malaria vector products. Parasit Vectors 2011, 4:160. [181] Mani GS: Evolution of resistance in the presence of two insecticides. Genetics 1985, 109(4):761-783. [182] Roush RT: Designing resistance management programs: how can you choose? Pesticide Science 1989, 26(4):423-441. [183] Hougard JM, Corbel V, N'Guessan R, Darriet F, Chandre F, Akogbeto M, Baldet T, Guillet P, Carnevale P, Traore-Lamizana M: Efficacy of mosquito nets treated with insecticide mixtures or mosaics against insecticide resistant Anopheles gambiae and Culex quinquefasciatus (Diptera: Culicidae) in Cote d'Ivoire. Bull Entomol Res 2003, 93(6):491-498. [184] Asidi AN, N'Guessan R, Koffi AA, Curtis CF, Hougard JM, Chandre F, Corbel V, Darriet F, Zaim M, Rowland MW: Experimental hut evaluation of bednets treated with an organophosphate (chlorpyrifos-methyl) or a pyrethroid (lambdacyhalothrin) alone and in combination against insecticide-resistant Anopheles gambiae and Culex quinquefasciatus mosquitoes. Malar J 2005, 4(1):25. [185] Ohashi K, Nakada K, Ishiwatari T, Miyaguchi J, Shono Y, Lucas JR, Mito N: Efficacy of pyriproxyfen-treated nets in sterilizing and shortening the longevity of Anopheles gambiae (Diptera: Culicidae). J Med Entomol 2012, 49(5):1052-1058. [186] Mosqueira B, Duchon S, Chandre F, Hougard JM, Carnevale P, Mas-Coma S: Efficacy of an insecticide paint against insecticide-susceptible and resistant mosquitoes – part 1: laboratory evaluation. Malar J 2010, 9:340. [187] Ngufor C, N'Guessan R, Boko P, Odjo A, Vigninou E, Asidi A, Akogbeto M, Rowland M: Combining indoor residual spraying with chlorfenapyr and long-lasting insecticidal bed nets for improved control of pyrethroid-resistant Anopheles gambiae: an experimental hut trial in Benin. Malar J 2011, 10:343. [188] Kleinschmidt I, Schwabe C, Shiva M, Segura JL, Sima V, Mabunda SJ, Coleman M: Combining indoor residual spraying and insecticide-treated net interventions. Am J Trop Med Hyg 2009, 81(3):519-524. [189] Okumu FO, Moore SJ: Combining indoor residual spraying and insecticide-treated nets for malaria control in Africa: a review of possible outcomes and an outline of suggestions for the future. Malar J 2011, 10:208. [190] Brosseau L, Drame PM, Besnard P, Toto JC, Foumane V, Le Mire J, Mouchet F, Remoue F, Allan R, Fortes F et al: Human antibody response to Anopheles saliva for comparing the efficacy of three malaria vector control methods in Balombo, Angola. PloS onE 2012, 7(9):e44189. [191] Bill_&_Melinda_Gates_Fondation, Boston_Consulting_Group: Market Assessment for Public Health Pesticide Products. In.; 2007.
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