Your search keyword '"Yadouleton Anges"' showing total 134 results

1. SARS-CoV-2 seroprevalence among Beninese pregnant women in the third year of the pandemic

Author

Figueroa-Romero, Antía, Atchadé, Aurore, Yadouleton, Anges, Fiogbe, Marc, Bonnet, Emmanuel, Yovo, Emmanuel, Accrombessi, Manfred, Hounsa, Sandrine, Paper, Thierry, Dupont, Raphael, Gaudart, Jean, Le Hesran, Jean-Yves, Massougbodji, Achille, Cottrell, Gilles, and González, Raquel

Published

2024

2. Genetic diversity and wing geometric morphometrics among four populations of Aedes aegypti (Diptera: Culicidae) from Benin

Author

Hounkanrin, Gildas, Tchibozo, Carine, Sauer, Felix Gregor, Agboli, Eric, Schmidt-Chanasit, Jonas, Yadouleton, Anges, Lühken, Renke, and Jöst, Hanna

Published

2023

3. Decreased proportions of indoor feeding and endophily in Anopheles gambiae s.l. populations following the indoor residual spraying and insecticide-treated net interventions in Benin (West Africa)

Author

Padonou Gil, Gbedjissi Ghelus, Yadouleton Anges, Azondekon Roseric, Razack Ossé, Oussou Olivier, Gnanguenon Virgile, Rock Aikpon, Sezonlin Michel, and Akogbeto Martin

Subjects

IRS, LLITNs, Bendiocarb, Deltamethrin, Behavior, Anopheles gambiae, Benin, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background In many parts of Africa as in Benin, the main strategies of vector control are based on the scaling-up of Long Lasting Insecticide Treated Nets (LLITNs) and indoor residual spraying (IRS). The need to understand the biological implications of IRS in large scale and full coverage of LLITNs is paramount. It is in this context that the present study was conducted. It aims to evaluate the effect of a large scale IRS using a non-pyrethroid insecticide and full coverage of deltamethrin treated nets on the behavior of An. gambiae s.l. in the intervention areas compared to untreated areas used as controls. Methods Mosquitoes were collected using human landing catches, pyrethrum spray catches and window exit traps to assess reduction of entry rate, endophily rate, endophagy rate and overall mortality rate in natural populations of An. gambiae s.l. before IRS and LLITNs intervention (2007) and after in 2008 and 2010. Results In the IRS arm, endophily rate was 67.13% before intervention and 4.5% after intervention, whereas in the control arm it was stable at 51.67% (P > 0 .05). In the LLITN arm endophily rates also decreased after intervention. After the IRS, no gravid mosquitoes were collected from all treated localities, but LLITN performance was not that spectacular. The proportion of mosquitoes biting indoors in the IRS arm decreased from 67.09% before intervention to 42.85% after intervention, compared to a low but significant decrease (71.31% to 57. 46%) in the LLITN arm. The use of vector control tools and behavior of the host would be the main factors that modify the behavior of taking a human blood meal observed on An. gambiae s.l. inside human dwellings. Conclusion The impact on the behavior of An. gambiae s.l. observed with the bendiocarb used in IRS was highly effective compared with the free distribution of LLITNs in terms of mortality and the decrease of proportions of indoor feeding. Despite this efficacy, there is a need for complementary tools and research of alternative strategy oriented on effective health education, and the use of powerful tools such as IRS, LLITNs, larviciding and repellents.

Published

2012

4. Cotton pest management practices and the selection of pyrethroid resistance in Anopheles gambiae population in Northern Benin

Author

Yadouleton Anges, Martin Thibaud, Padonou Gil, Chandre Fabrice, Asidi Alex, Djogbenou Luc, Dabiré Roch, Aïkpon Rock, Boko Michel, Glitho Isabelle, and Akogbeto Martin

Subjects

Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background Pyrethroid insecticides, carbamate and organophosphate are the classes of insecticides commonly used in agriculture for crop protection in Benin. Pyrethroids remain the only class of insecticides recommended by the WHO for impregnation of bed nets. Unfortunately, the high level of pyrethroid resistance in Anopheles gambiae s.l., threatens to undermine the success of pyrethroid treated nets. This study focuses on the investigation of agricultural practices in cotton growing areas, and their direct impact on larval populations of An. gambiae in surrounding breeding sites. Methods The protocol was based on the collection of agro-sociological data where farmers were subjected to semi-structured questionnaires based on the strategies used for crop protection. This was complemented by bioassay tests to assess the susceptibility of malaria vectors to various insecticides. Molecular analysis was performed to characterize the resistance genes and the molecular forms of An. gambiae. Insecticide residues in soil samples from breeding sites were investigated to determine major factors that can inhibit the normal growth of mosquito larvae by exposing susceptible and resistant laboratory strains. Results There is a common use by local farmers of mineral fertilizer NPK at 200 kg/ha and urea at 50 kg/hectare following insecticide treatments in both the Calendar Control Program (CCP) and the Targeted Intermittent Control Program (TICP). By contrast, no chemicals are involved in Biological Program (BP) where farmers use organic and natural fertilizers which include animal excreta. Susceptibility test results confirmed a high resistance to DDT. Mean mortality of An. gambiae collected from the farms practicing CCP, TICP and BP methods were 33%, 42% and 65% respectively. An. gambiae populations from areas using the CCP and TICP programs showed resistance to permethrin with mortality of 50% and 58% respectively. By contrast, bioassay test results of An. gambiae from BP areas gave a high level of susceptibility to permethrin with an average mortality of 94%. Molecular analysis identified An. gambiae s.s, and An. arabiensis with a high predominance of An. gambiae s.s (90%). The two molecular forms, M and S, were also determined with a high frequency of the S form (96%). The Kdr gene seemed the main target- site resistance mechanism detected in CCP, TICP, and BP areas at the rates ranging from 32 to 78%. The frequency of ace-1R gene was very low (< 0.1). The presence of inhibiting factors in soil samples under insecticide treatments were found and affected negatively in delaying the development of An. gambiae larval populations. Conclusions This research shows that Kdr has spread widely in An. gambiae, mainly in CCP and TICP areas where pyrethroids are extensively used. To reduce the negative impact of pesticides use in cotton crop protection, the application of BP-like programs, which do not appear to select for vector resistance would be useful. These results could serve as scientific evidence of the spread of resistance due to a massive agricultural use of insecticides and contribute to the management of pesticides usage on cotton crops hence reducing the selection pressure of insecticides on An. gambiae populations.

Published

2011

5. Bendiocarb, a potential alternative against pyrethroid resistant Anopheles gambiae in Benin, West Africa

Author

Irish Seth, Gbénou Dina, Padonou Gil, Akogbéto Martin C, and Yadouleton Anges

Subjects

Arctic medicine. Tropical medicine, RC955-962, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background Anopheles gambiae, the main malaria vector in Benin has developed high level of resistance to pyrethroid insecticides, which is a serious concern to the future use of long-lasting insecticidal nets (LLIN) and indoor residual spraying (IRS). In this context, one of the pathways available for malaria vector control would be to investigate alternative classes of insecticides with different mode of action than that of pyrethroids. The goal of this study was to evaluate under field conditions the efficacy of a carbamate (bendiocarb) and an organophosphate (fenitrothion) against pyrethroid-resistant An. gambiae s.s. Methods Wild populations and females from laboratory colonies of five days old An. gambiae were bio-assayed during this study. Two pyrethroids (deltamethrin and alphacypermethrin), an organophosphate (fenitrothion), a carbamate (bendiocarb) and a mixture of an organophosphate (chlorpyriphos + a pyrethroid deltamethrin) were compared in experimental huts as IRS treatments. Insecticides were applied in the huts using a hand-operated compression sprayer. The deterrency, exophily, blood feeding rate and mortality induced by these insecticides against An. gambiae were compared to the untreated control huts. Results Deltamethrin, alphacypermethrin and bendiocarb treatment significantly reduced mosquito entry into the huts (p < 0.05) compared to untreated huts. Blood feeding rates in huts treated with fenitrothion and the mixture chlorpyriphos/deltamethrin were reduced from 10.95% respectively to 3.7% and 4.47% three months after treatment and from 10.20% to 4.4% and 2.04% four months after treatment. Exophily rates in huts with deltamethrin, alphacypermethrin and the mixture chlorpyriphos/deltamethrin were significantly higher than in the huts with fenitrothion. Deltamethrin and alphacypermethrin had the lowest mortality rate while fenitrothion killed 100% of An. gambiae (in the first month) and 77.8% (in the fourth month). Bendiocarb and the mixture chlorpyriphos/deltamethrin mortality rates ranged from 97.9 to 100% the first month and 77.7-88% the third month respectively. Conclusion After four months, fenitrothion, bendiocarb and the mixture chlorpyriphos/deltamethrin performed effectively against pyrethroid-resistant Anopheles. These results showed that bendiocarb could be recommended as an effective insecticide for use in IRS operations in Benin, particularly as the mixture chlorpyriphos/deltamethrin does not have WHOPES authorization and complaints were mentioned by the sleepers about the safety and smell of fenitrothion.

Published

2010

6. Insecticide resistance status in Anopheles gambiae in southern Benin

Author

Corbel Vincent, Bio-Banganna Sahabi, Moiroux Nicolas, Asidi Alex, Padonou Gil, Yadouleton Anges W, N'guessan Raphael, Gbenou Dina, Yacoubou Imorou, Gazard Kinde, and Akogbeto Martin C

Subjects

Arctic medicine. Tropical medicine, RC955-962, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background The emergence of pyrethroid resistance in Anopheles gambiae has become a serious concern to the future success of malaria control. In Benin, the National Malaria Control Programme has recently planned to scaling up long-lasting insecticidal nets (LLINs) and indoor residual spraying (IRS) for malaria prevention. It is, therefore, crucial to monitor the level and type of insecticide resistance in An. gambiae, particularly in southern Benin where reduced efficacy of insecticide-treated nets (ITNs) and IRS has previously been reported. Methods The protocol was based on mosquito collection during both dry and rainy seasons across forty districts selected in southern Benin. Bioassay were performed on adults collected from the field to assess the susceptibility of malaria vectors to insecticide-impregnated papers (permethrin 0.75%, delthamethrin 0.05%, DDT 4%, and bendiocarb 0.1%) following WHOPES guidelines. The species within An. gambiae complex, molecular form and presence of kdr and ace-1 mutations were determined by PCR. Results Strong resistance to permethrin and DDT was found in An. gambiae populations from southern Benin, except in Aglangandan where mosquitoes were fully susceptible (mortality 100%) to all insecticides tested. PCR showed the presence of two sub-species of An. gambiae, namely An. gambiae s.s, and Anopheles melas, with a predominance for An. gambiae s.s (98%). The molecular M form of An. gambiae was predominant in southern Benin (97%). The kdr mutation was detected in all districts at various frequency (1% to 95%) whereas the Ace-1 mutation was found at a very low frequency (≤ 5%). Conclusion This study showed a widespread resistance to permethrin in An. gambiae populations from southern Benin, with a significant increase of kdr frequency compared to what was observed previously in Benin. The low frequency of Ace-1 recorded in all populations is encouraging for the use of bendiocarb as an alternative insecticide to pyrethroids for IRS in Benin.

Published

2010

7. Development of vegetable farming: a cause of the emergence of insecticide resistance in populations of Anopheles gambiae in urban areas of Benin

Author

Braïma James, Djouaka Rousseau F, Asidi Alex, Yadouleton Anges, Agossou Christian D, and Akogbeto Martin C

Subjects

Arctic medicine. Tropical medicine, RC955-962, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background A fast development of urban agriculture has recently taken place in many areas in the Republic of Benin. This study aims to assess the rapid expansion of urban agriculture especially, its contribution to the emergence of insecticide resistance in populations of Anopheles gambiae. Methods The protocol was based on the collection of sociological data by interviewing vegetable farmers regarding various agricultural practices and the types of pesticides used. Bioassay tests were performed to assess the susceptibility of malaria vectors to various agricultural insecticides and biochemical analysis were done to characterize molecular status of population of An. gambiae. Results This research showed that: (1) The rapid development of urban agriculture is related to unemployment observed in cities, rural exodus and the search for a balanced diet by urban populations; (2) Urban agriculture increases the farmers' household income and their living standard; (3) At a molecular level, PCR revealed the presence of three sub-species of An. gambiae (An. gambiae s.s., Anopheles melas and Anopheles arabiensis) and two molecular forms (M and S). The kdr west mutation recorded in samples from the three sites and more specifically on the M forms seems to be one of the major resistance mechanisms found in An. gambiae from agricultural areas. Insecticide susceptibility tests conducted during this research revealed a clear pattern of resistance to permethrin (76% mortality rate at Parakou; 23.5% at Porto-Novo and 17% at Cotonou). Conclusion This study confirmed an increase activity of the vegetable farming in urban areas of Benin. This has led to the use of insecticide in an improper manner to control vegetable pests, thus exerting a huge selection pressure on mosquito larval population, which resulted to the emergence of insecticide resistance in malaria vectors.

Published

2009

8. Factors enhancing the transmission of mosquito-borne arboviruses in Africa

Author

Ateutchia Ngouanet, Sandra, Wanji, Samuel, Yadouleton, Anges, Demanou, Maurice, Djouaka, Rousseau, and Nanfack-Minkeu, Ferdinand

Published

2022

9. Introduction of monkeypox virus in Benin, 2022

Author

Yadouleton, Anges, Faye, Martin, Tchibozo, Carine, Oke, Mariam, Faye, Oumar, Lawale, Thierry, Denon, Eric, Keke, René, Dossou, Ange, Zohoun, Alban, Dossou, Francis, Diagne, Moussa Moise, Salifou, Sourakou, Diatta, Khadija Leila, Ndiaye, Mignane, Sankhe, Safietou, Diallo, Amadou, Bedie, Sonia, Glele-Kakai, Clément, Onifade, Al Fattah, Saizonou, Raoul, Hounkanrin, Gildas, Quenum, Olga, Badou, Yvette, Hounkpatin, Benjamin, Sall, Amadou Alpha, and Faye, Ousmane

Published

2022

10. Surveillance of arthropod-borne viruses in Benin, West Africa 2020–2021: detection of dengue virus 3 in Aedes aegypti (Diptera: Culicidae)

Author

Tchibozo, Carine, Hounkanrin, Gildas, Yadouleton, Anges, Bialonski, Alexandra, Agboli, Eric, Lühken, Renke, Schmidt-Chanasit, Jonas, and Jöst, Hanna

Published

2022

11. Emergence of SARS-CoV-2 Delta Variant, Benin, May--July 2021

Author

Yadouleton, Anges, Sander, Anna-Lena, Adewumi, Praise, de Oliveira Filho, Edmilson F., Tchibozo, Carine, Hounkanrin, Gildas, Rene, Keke K., Ange, Dossou, Kohoun, Rodrigue K., Nari, Ramalia Chabi, Salifou, Sourakatou, Saizonou, Raoul, Kakai, Clement G., Bedie, Sonia V., Onifade, Fattah Al, Nagel, Michael, Aissi, Melchior A. Joel, Akogbeto, Petas, Drosten, Christian, Wulf, Ben, Moreira-Soto, Andres, Djingarey, Mamoudou Harouna, Hounkpatin, Benjamin, and Drexler, Jan Felix

Subjects

Epidemics -- Statistics -- Causes of -- Benin, Health

Abstract

Numerous genetic variants of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) have emerged globally since the start of the coronavirus disease (COVID-19) pandemic (https://cov-lineages.org). By September 2021, the World Health [...]

Published

2022

12. Mutations Associated with SARS-CoV-2 Variants of Concern, Benin, Early 2021

Author

Sander, Anna-Lena, Yadouleton, Anges, de Oliveira Filho, Edmilson F., Tchibozo, Carine, Hounkanrin, Gildas, Badou, Yvette, Adewumi, Praise, Rene, Keke K., Ange, Dossou, Sourakatou, Salifou, Sedjro, Eclou, Aissi, Melchior A. Joel, Fidelia, Hinson, Djingarey, Mamoudou Harouna, Nagel, Michael, Jo, Wendy Karen, Moreira-Soto, Andres, Drosten, Christian, Landt, Olfert, Corman, Victor Max, Hounkpatin, Benjamin, and Drexler, Jan Felix

Subjects

Gene mutations -- Research, Epidemics -- Causes of -- Benin, Virus research, Health

Abstract

Genomic surveillance is key to elucidate coronavirus disease (COVID-19) transmission chains and to monitor emerging severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) variants associated with partial or complete immune escape [...]

Published

2021

13. Empowering public health: building advanced molecular surveillance in resource-limited settings through collaboration and capacity-building.

Author

Koudokpon, Hornel, Lègba, Boris, Sintondji, Kevin, Kissira, Islamiath, Kounou, Arielle, Guindo, Ibrehima, Koné, Kléma Marcel, Abdou, Mahamadou, Koné, Amadou, Sambou, Claire, Bankolé, Honoré, Yadouleton, Anges, and Dougnon, Victorien

Subjects

PUBLIC health surveillance, INTERPROFESSIONAL relations, RESEARCH funding, GENOMICS, GOAL (Psychology), BIOINFORMATICS, ORGANIZATIONAL change, PUBLIC health, RESOURCE-limited settings, QUALITY assurance, MOLECULAR diagnosis

Abstract

The rapid detection and continuous surveillance of infectious diseases are important components of an effective public health response. However, establishing advanced molecular surveillance systems, crucial for monitoring and mitigating pandemics, poses significant challenges in resource-limited developing countries. In a collaborative effort, research institutions from Benin joined forces with Mali's National Institute of Public Health to implement a state-of-the-art molecular surveillance system in Mali. This approach was characterized by collaboration, multidisciplinarity, and tutoring. Key activities included a comprehensive assessment of infrastructure and human resources through document reviews, interviews, and laboratory visits; the development and validation of Standard Operating Procedures (SOPs) for advanced molecular surveillance following an inclusive approach; capacity-building initiatives for 25 biologists in Mali on sequencing techniques; and international tutoring sessions for eight Malian professionals held in Benin. These collective efforts enabled Mali to establish an advanced molecular surveillance system aligned with the WHO's global strategy for genomic surveillance. This manuscript aims to share experiences, insights, and outcomes from this initiative, with the hope of contributing to the broader discussion on strengthening global health security through collaborative approaches and capacity-building efforts, particularly in developing countries. [ABSTRACT FROM AUTHOR]

Published

2024

14. Limited Specificity of Serologic Tests for SARS-CoV-2 Antibody Detection, Benin

Author

Yadouleton, Anges, Sander, Anna-Lena, Moreira-Soto, Andres, Tchibozo, Carine, Hounkanrin, Gildas, Badou, Yvette, Fischer, Carlo, Krause, Nina, Akogbeto, Petas, de Oliveira Filho, Edmilson F., Dossou, Anges, Brunink, Sebastian, Aissi, Melchior A. Joel, Djingarey, Mamoudou Harouna, Hounkpatin, Benjamin, Nagel, Michael, and Drexler, Jan Felix

Subjects

Epidemics -- Control -- Benin, Serodiagnosis -- Evaluation, Medical care -- Quality management, Health

Abstract

Since its emergence in China late 2019, coronavirus disease (COVID-19) had caused >41 million cases and >1.1 million deaths globally by October 2020, according to the World Health Organization (https://www.who. [...]

Published

2021

15. Ineffectiveness of international travel restrictions to contain spread of the SARS-CoV-2 Omicron BA.1 variant: a continent-wide laboratory-based observational study from Africa

Author

Fischer, Carlo, primary, Maponga, Tongai Gibson, additional, Yadouleton, Anges, additional, Abilio, Nuro, additional, Aboce, Emmanuel, additional, Adewumi, Praise, additional, Afonso, Pedro, additional, Akorli, Jewelna, additional, Andriamandimby, Soa Fy, additional, Anga, Latifa, additional, Ashong, Yvonne, additional, Beloufa, Mohamed Amine, additional, Bensalem, Aicha, additional, Birtles, Richard, additional, Magloire Boumba, Anicet Luc, additional, Bwanga, Freddie, additional, Chaponda, Mike, additional, Chibukira, Paradzai, additional, Chico, R Matthew, additional, Chileshe, Justin, additional, Choga, Wonderful, additional, Chongwe, Gershom, additional, Cisse, Assana, additional, Cisse, Fatoumata, additional, D Alessandro, Umberto, additional, de Lamballerie, Xavier, additional, de Morais, Joana F.M., additional, Derrar, Fawzi, additional, Dia, Ndongo, additional, Diarra, Youssouf, additional, Doumbia, Lassina, additional, Drosten, Christian, additional, Dussart, Philippe, additional, Echodu, Richard, additional, Luedde, Tom, additional, Eloualid, Abdelmajid, additional, Faye, Ousmane, additional, Feldt, Torsten, additional, Fruehauf, Anna, additional, Gaseitsiwe, Simani, additional, Halatoko, Afiwa, additional, Ilouga, Pauliana-Vanessa, additional, Ismael, Nalia, additional, Jambou, Ronan, additional, Jarju, Sheikh, additional, Kamprad, Antje, additional, Katowa, Ben, additional, Kayiwa, John, additional, Kingwara, Leonard, additional, Koita, Ousmane, additional, Lacoste, Vincent, additional, Lagare, Adamou, additional, Landt, Olfert, additional, Lekana-Douki, Sonia Etenna, additional, Lekana-Douki, Jean-Bernard, additional, Iipumbu, Etuhole, additional, Loemba, Hugues, additional, Lutwama, Julius, additional, Mamadou, Santou, additional, Maman, Issaka, additional, Manyisa, Brendon, additional, Martinez, Pedro A., additional, Matoba, Japhet, additional, Mhuulu, Lusia, additional, Moreira-Soto, Andres, additional, Moyo, Sikhulile, additional, Mwangi, Judy, additional, Ndilimabaka, Nadine, additional, Nassuna, Charity Angella, additional, Ndiath, Mamadou Ousmane, additional, Nepolo, Emmanuel, additional, Njouom, Richard, additional, Nourlil, Jalal, additional, Nyanjom, Steven Ger, additional, Odari, Eddy Okoth, additional, Okeng, Alfred, additional, Ouoba, Jean Bienvenue, additional, Owusu, Michael, additional, Donkor, Irene Owusu, additional, Phadu, Karabo Kristen, additional, Phillips, Richard Odame, additional, Preiser, Wolfgang, additional, Roques, Pierre, additional, Ruhanya, Vurayai, additional, Salah, Fortune, additional, Salifou, Sourakatou, additional, Sall, Amadou Alpha, additional, Sylverken, Augustina Angelina, additional, Tagnouokam-Ngoupo, Paul Alain, additional, Tarnagda, Zekiba, additional, Tchikaya, Francis Olivier, additional, Tordo, Noel, additional, Tufa, Tafese Beyene, additional, and Drexler, Jan Felix, additional

Published

2024

16. PA-142 High SARS-CoV-2 seroprevalence among pregnant women in Allada and Natitingou (Benin) in 2022

Author

Figueroa-Romero, Antía, primary, Atchadé, Aurore, additional, Yadouleton, Anges, additional, Fiogbe, Marc, additional, Bonnet, Emmanuel, additional, Yovo, Emmanuel, additional, Hounsa, Sandrine, additional, Gaudart, Jean, additional, LeHesran, Jean-Yves, additional, Massougbodji, Achille, additional, Cottrell, Gilles, additional, and Gonzalez, Raquel, additional

Published

2023

17. Genomic surveillance of dengue virus in Benin

Author

Yadouleton, Anges, Nouatin, Odilon, Kissira, Islamiath, Houngbegnon, Parfait, Cottrell, Gilles, Fievet, Nadine, Sohou, Stephane, Butel, Christelle, Serrano, Laetitia, Guichet, Emilande, Vidal, Nicole, Delaporte, Eric, Ayouba, Ahidjo, Peeters, Martine, and Massougbodji, Achille

Published

2024

18. Attrition, physical integrity and insecticidal activity of long-lasting insecticidal nets in sub-Saharan Africa and modelling of their impact on vectorial capacity

Author

Briet, Olivier, Koenker, Hannah, Norris, Laura, Wiegand, Ryan, Vanden Eng, Jodi, Thackeray, Alex, Williamson, John, Gimnig, John E., Fortes, Filomeno, Akogbeto, Martin, Yadouleton, Anges W., Ombok, Maurice, Bayoh, M. Nabie, Mzilahowa, Themba, Abílio, Ana Paula, Mabunda, Samuel, Cuamba, Nelson, Diouf, Elhadji, Konaté, Lassana, Hamainza, Busiku, Katebe-Sakala, Cecilia, Ponce de León, Gabriel, Asamoa, Kwame, Wolkon, Adam, Smith, Stephen C., Swamidoss, Isabel, Green, Mike, Gueye, Salam, Mihigo, Jules, Morgan, Juliette, Dotson, Ellen, Craig, Allen S., Tan, Kathrine R., Wirtz, Robert A., and Smith, Tom

Published

2020

19. Antimicrobial resistance and toxigenic profiles of bacteria isolated from tropical shrimps (Farfantepenaeus notialis and Penaeus monodon) in Cameroun

Author

Nga Ombede, Sabine Ninelle, Dougnon, Victorien, Koudokpon, Hornel, Deguenon, Esther, Mindzie Ngomo, Rajeunie Pernelle Jaelle, Tchibozo, Carine, Gnimatin, Jean Pierre, Tchoumbougnang, François, Yadouleton, Anges, and Dougnon, Jacques

Published

2020

20. Effects of pesticide residues in soil substrates on the biology cycle of Aedes aegypti from three different setting zones in Benin | JBES

Author

Sanoussi Falilath, Yadouleton Anges, Badou Yvette, Hounkanrin Gildas, Tchibozo Carine, Agbanrin Ramziyath, Adewumi Praise, and Baba-Moussa Lamine

Subjects

Insecticides, Aedes aegypti, Larvae, Eggs, Benin, Development

Abstract

In order to evaluate the effects of insecticides residues in soil substrates on the biology cycle of Aedes aegypti, we conducted a study in three ecological zones: urban areas (Dandji, southern Benin with few agriculture activities), peri urban areas (Awaya, central of Benin with agriculture practices), and forests (Kaoura, northern Benin with few agriculture activities). These areas were chosen because they provided an ideal environment for the development of Aedes aegypti. The purpose of this study is to look for insecticide residues that may have detrimental impacts on the biology cycle of A. aegypti. Indirect bioassays were used to investigate the factors affecting mosquito larvae’s ability to develop normally at breeding sites, their rate of growth, and their ability to produce an adequate number of larvae. Due to the absence of an HPLC equipment for the direct detection of pesticide residues in samples, A. aegypti larvae at breeding sites were reconstituted using water and soil samples obtained at each study site. A comparison of the larval growth in test breeding locations was made using the reference strain SBE as a control. The different bioassays demonstrate the existence of inhibitory elements on test materials. In control samples, larval development was observed to be normal. However, when the breeding sites were established with just a few grams of soil samples from the three study sites, it was found that the A. aegypti eggs had a poor hatching rate, along with sluggish larval development and a low production of adult mosquitoes from hatched eggs. The findings of this study indicate that toxic substances that prevent A. aegypti eggs from hatching and larvae from growing are most likely leftover pesticides from agricultural operations. In order to quantify the toxic factors likely to affect the biology parameters of A. aegypti cited above, these results must be validated using HPLC techniques. Published by the Journal of Biodiversity and Environmental Sciences | JBES, {"references":["Amelia-Yap ZH, Chen CD, Sofian-Azirun M, Low VL. 2018. Pyrethroid Resistance in the Dengue Vector Aedes aegypti in Southeast Asia: Present Situation and Prospects for Management. Parasites & Vectors 11(1), 332p.","Carletto J, Martin T, Flavie Vanlerberghe-Masutti F, Brévault M. 2010. Insecticide Resistance Traits Differ among and within Host Races in Aphis gossypii. Pest Management Science 66(3), 301‑7.","Fagbami AH, Onoja AB. 2018. Dengue Haemorrhagic Fever: An Emerging Disease in Nigeria, West Africa. Journal of Infection and Public Health 11(6), 757‑62.","Fofana D, Beugré JMV, Yao-Acapovi G, Lendzele SS. 2019. Risk of Dengue Transmission in Cocody (Abidjan, Ivory Coast). Journal of Parasitology Research 2019: 4914137.","Gaye A, Ndiaye C, Sy M, Deme A, Thiaw AB, Sene A, Ndiaye C, Diedhiou Y, Mbaye A, Ndiaye A, Tomkins-Tinch C, Gomis J, Badiane AS, Maclnnis B, Park D, Ndiaye M, Sy N, Sabeti PC, Siddle KJ and Ndiaye D. 2021. Genomic Investigation of a Dengue Virus Outbreak in Thiès, Senegal in 2018. Scientific Reports 11(1), 10321p.","Linnaeus. 1762. Aedes aegypti (Linnaeus, 1762). Walter Reed Biosystematics Unit (WRBU).","Lounibos L, Juliano SA. 2018. Where Vectors Collide: The Importance of Mechanisms Shaping the Realized Niche for Modeling Ranges of Invasive Aedes Mosquitoes. Biological Invasions 20(8), 1913‑1929.","Martín MA, Siles JA, Martin A. 2010. Biomethanization of Orange Peel Waste. Bioresource Technology 101(23), 8993‑8999.","Ouédraogo S, Degroote S, Barro SA, Some PA, Bonnet E and Ridde V. 2019. Recurrence of dengue epidemics in Burkina Faso: Community preference for an intervention to prevent the disease. Rev Epidemiol Sante Publique 67(6), 375‑382.","WHO. 2009. Dengue guidelines for diagnosis, Treatment, Prevention and Control.","Yadouleton A, Agbanrin R, Vodounon C, Padonou G, Badirou K, Attolou R, Ursins F, Zola J, Allagbé H, Akogbéto M. 2014. Seasonal Distribution of Aedes aegypti in Southern Benin: A Risk of Dengue Virus Transmission to Urban Populations. International Journal of Innovation and Applied Studies 9 (2), 648‑654.","Yadouleton A, Thibaud M, Padonou G, Fabrice C, Alex A, Djogbenou L, Roch D, Aikpon R, Boko M, Glitho I, Akogbeto M. 2011. Cotton pest management practices and the selection of pyrethroid resistance in Anopheles gambiae population in Northern Benin ». Parasites & Vectors 4(1), 60p."]}

Published

2023

21. Lassa Virus in Pygmy Mice, Benin, 2016-2017

Author

Yadouleton, Anges, Agolinou, Achaz, Kourouma, Fode, Saizonou, Raoul, Pahlmann, Meike, Bedie, Sonia Kossou, Bankole, Honore, Becker-Ziaja, Beate, Gbaguidi, Fernand, Thielebein, Anke, Magassouba, N'Faly, Duraffour, Sophie, Baptiste, Jean-Pierre, Gunther, Stephan, and Fichet-Calvet, Elisabeth

Subjects

Lassa fever -- Health aspects, Teachers, Health

Abstract

Lassa fever has recently emerged in Benin and Togo, where it had been unknown until 2014. In November 2014, two persons died of confirmed Lassa virus (LASV) infection at Saint [...]

Published

2019

22. Retraction

Author

Fischer, Carlo, primary, Maponga, Tongai Gibson, additional, Yadouleton, Anges, additional, Abílio, Nuro, additional, Aboce, Emmanuel, additional, Adewumi, Praise, additional, Afonso, Pedro, additional, Akorli, Jewelna, additional, Andriamandimby, Soa Fy, additional, Anga, Latifa, additional, Ashong, Yvonne, additional, Beloufa, Mohamed Amine, additional, Bensalem, Aicha, additional, Birtles, Richard, additional, Boumba, Anicet Luc Magloire, additional, Bwanga, Freddie, additional, Chaponda, Mike, additional, Chibukira, Paradzai, additional, Chico, R. Matthew, additional, Chileshe, Justin, additional, Chongwe, Gershom, additional, Cissé, Assana, additional, D’Alessandro, Umberto, additional, de Lamballerie, Xavier Nicolas, additional, de Morais, Joana F. M., additional, Derrar, Fawzi, additional, Dia, Ndongo, additional, Diarra, Youssouf, additional, Doumbia, Lassina, additional, Drosten, Christian, additional, Dussart, Philippe, additional, Echodu, Richard, additional, Eggers, Yannik, additional, Eloualid, Abdelmajid, additional, Faye, Ousmane, additional, Feldt, Torsten, additional, Frühauf, Anna, additional, Halatoko, Afiwa, additional, Ilouga, Pauliana-Vanessa, additional, Ismael, Nalia, additional, Jambou, Ronan, additional, Jarju, Sheikh, additional, Kamprad, Antje, additional, Katowa, Ben, additional, Kayiwa, John, additional, King’wara, Leonard, additional, Koita, Ousmane, additional, Lacoste, Vincent, additional, Lagare, Adamou, additional, Landt, Olfert, additional, Lekana-Douki, Sonia Etenna, additional, Lekana-Douki, Jean-Bernard, additional, Iipumbu, Etuhole, additional, Loemba, Hugues, additional, Lutwama, Julius, additional, Mamadou, Santou, additional, Maman, Issaka, additional, Manyisa, Brendon, additional, Martinez, Pedro A., additional, Matoba, Japhet, additional, Mhuulu, Lusia, additional, Moreira-Soto, Andres, additional, Mwangi, Judy, additional, N’dilimabaka, Nadine, additional, Nassuna, Charity Angella, additional, Ndiath, Mamadou Ousmane, additional, Nepolo, Emmanuel, additional, Njouom, Richard, additional, Nourlil, Jalal, additional, Nyanjom, Steven Ger, additional, Odari, Eddy Okoth, additional, Okeng, Alfred, additional, Ouoba, Jean Bienvenue, additional, Owusu, Michael, additional, Donkor, Irene Owusu, additional, Phadu, Karabo Kristen, additional, Phillips, Richard Odame, additional, Preiser, Wolfgang, additional, Ruhanya, Vurayai, additional, Salah, Fortune, additional, Salifou, Sourakatou, additional, Sall, Amadou Alpha, additional, Sylverken, Augustina Angelina, additional, Tagnouokam-Ngoupo, Paul Alain, additional, Tarnagda, Zekiba, additional, Tchikaya, Francis Olivier, additional, Tufa, Tafese Beyene, additional, and Drexler, Jan Felix, additional

Published

2022

23. Gradual emergence followed by exponential spread of the SARS-CoV-2 Omicron variant in Africa

Author

Fischer, Carlo, primary, Maponga, Tongai Gibson, additional, Yadouleton, Anges, additional, Abílio, Nuro, additional, Aboce, Emmanuel, additional, Adewumi, Praise, additional, Afonso, Pedro, additional, Akorli, Jewelna, additional, Andriamandimby, Soa Fy, additional, Anga, Latifa, additional, Ashong, Yvonne, additional, Beloufa, Mohamed Amine, additional, Bensalem, Aicha, additional, Birtles, Richard, additional, Boumba, Anicet Luc Magloire, additional, Bwanga, Freddie, additional, Chaponda, Mike, additional, Chibukira, Paradzai, additional, Chico, R. Matthew, additional, Chileshe, Justin, additional, Chongwe, Gershom, additional, Cissé, Assana, additional, D’Alessandro, Umberto, additional, de Lamballerie, Xavier Nicolas, additional, de Morais, Joana F. M., additional, Derrar, Fawzi, additional, Dia, Ndongo, additional, Diarra, Youssouf, additional, Doumbia, Lassina, additional, Drosten, Christian, additional, Dussart, Philippe, additional, Echodu, Richard, additional, Eggers, Yannik, additional, Eloualid, Abdelmajid, additional, Faye, Ousmane, additional, Feldt, Torsten, additional, Frühauf, Anna, additional, Halatoko, Afiwa, additional, Ilouga, Pauliana-Vanessa, additional, Ismael, Nalia, additional, Jambou, Ronan, additional, Jarju, Sheikh, additional, Kamprad, Antje, additional, Katowa, Ben, additional, Kayiwa, John, additional, King’wara, Leonard, additional, Koita, Ousmane, additional, Lacoste, Vincent, additional, Lagare, Adamou, additional, Landt, Olfert, additional, Lekana-Douki, Sonia Etenna, additional, Lekana-Douki, Jean-Bernard, additional, Iipumbu, Etuhole, additional, Loemba, Hugues, additional, Lutwama, Julius, additional, Mamadou, Santou, additional, Maman, Issaka, additional, Manyisa, Brendon, additional, Martinez, Pedro A., additional, Matoba, Japhet, additional, Mhuulu, Lusia, additional, Moreira-Soto, Andres, additional, Mwangi, Judy, additional, N´dilimabaka, Nadine, additional, Nassuna, Charity Angella, additional, Ndiath, Mamadou Ousmane, additional, Nepolo, Emmanuel, additional, Njouom, Richard, additional, Nourlil, Jalal, additional, Nyanjom, Steven Ger, additional, Odari, Eddy Okoth, additional, Okeng, Alfred, additional, Ouoba, Jean Bienvenue, additional, Owusu, Michael, additional, Owusu Donkor, Irene, additional, Phadu, Karabo Kristen, additional, Phillips, Richard Odame, additional, Preiser, Wolfgang, additional, Ruhanya, Vurayai, additional, Salah, Fortune, additional, Salifou, Sourakatou, additional, Sall, Amadou Alpha, additional, Sylverken, Augustina Angelina, additional, Tagnouokam-Ngoupo, Paul Alain, additional, Tarnagda, Zekiba, additional, Tchikaya, Francis Olivier, additional, Tufa, Tafese Beyene, additional, and Drexler, Jan Felix, additional

Published

2022

24. Additional file 1 of Surveillance of arthropod-borne viruses in Benin, West Africa 2020–2021: detection of dengue virus 3 in Aedes aegypti (Diptera: Culicidae)

Author

Tchibozo, Carine, Hounkanrin, Gildas, Yadouleton, Anges, Bialonski, Alexandra, Agboli, Eric, Lühken, Renke, Schmidt-Chanasit, Jonas, and Jöst, Hanna

Abstract

Additional file 1: Fig. S1. Map of Benin with trapping sites and number of collected mosquitoes. Table S1. List of the primer sequences used for reverse transcription polymerase chain reaction. Table S2. Total number of collected female mosquitoes.

Published

2023

25. DOES THE INTENSIFICATION OF URBAN AND RURAL AGRICULTURE IN BENIN CONTRIBUTE TO THE EMERGENCE OF ENZYMATIC ACTIVITY IN ANOPHELES GAMBIAESENSULATO?

Author

Yadouleton Anges, Dramane Gado , Badou Yvette, Sanoussi Falilath , Hounkanrin Gildas, and Tchibozo Carine and Baba-Moussa Lamine

Subjects

Anopheles Gambiae Enzyme Agriculture Insecticide Benin

Abstract

To explore the contribution of agricultural practices on enzymatic activity in Anopheles gambiae populations,collections of Anopheles gambiaelarve were done in cotton vegetable farming (famers use for both,insecticides for pest control) and in subsistence farming (no insecticide) from the district of Banikoara, located in Benin. Enzymatic activities such astotal protein, monooxygenase P450, Glutathione-S-Transferase and esterasewere investigated on F1 generation females aged 3-5 days. Results from this study showed a significant high level of Glutathione-S-Transferase and monooxygenase P450 activities from the wild populations of An. gambiae particularly in cotton and vegetable farming areas compared to the susceptible Kisumu strain (control) (P0.05). These findings confirmed the contribution of agricultural practices on theemergence of enzymatic activity in Anopheles gambiaes.l particularly on Glutathione-S-Transferase, and monooxygenase P450. However, the same level of the wild populations activity in esterase compared to the control could be explained by the involving of many insecticide resistance mechanisms of An. gambiae associated to the level of enzymatic activity in An. gambiae populations in this locality. &nbsp

Published

2022

26. Interest of seroprevalence surveys for the epidemiological surveillance of the SARS-CoV-2 pandemic in African populations: insights from the ARIACOV Project in Benin

Author

Houngbégnon, Parfait, primary, Nouatin, Odilon, additional, Yadouleton, Anges, additional, Hounkpatin, Benjamin, additional, Fievet, Nadine, additional, Atindegla, Eloïc, additional, Deschavanne, Sebastien, additional, Guichet, Emilande, additional, Ayouba, Ahidjo, additional, Pelloquin, Raphaël, additional, Maman, David, additional, Thaurignac, Guillaume, additional, Peeters, Martine, additional, Aviansou, Annonciat, additional, Sourakafou, Salifou, additional, Delaporte, Eric, additional, Massougbodji, Achille, additional, and Cottrell, Gilles, additional

Published

2022

27. The evolving SARS-CoV-2 epidemic in Africa: Insights from rapidly expanding genomic surveillance

Author

Tegally, Houriiyah, primary, San, James E., additional, Cotten, Matthew, additional, Tegomoh, Bryan, additional, Mboowa, Gerald, additional, Martin, Darren P., additional, Baxter, Cheryl, additional, Moir, Monika, additional, Lambisia, Arnold, additional, Diallo, Amadou, additional, Amoako, Daniel G., additional, Diagne, Moussa M., additional, Sisay, Abay, additional, Zekri, Abdel-Rahman N., additional, Barakat, Abdelhamid, additional, Gueye, Abdou Salam, additional, Sangare, Abdoul K., additional, Ouedraogo, Abdoul-Salam, additional, Sow, Abdourahmane, additional, Musa, Abdualmoniem O., additional, Sesay, Abdul K., additional, Lagare, Adamou, additional, Kemi, Adedotun-Sulaiman, additional, Abar, Aden Elmi, additional, Johnson, Adeniji A., additional, Fowotade, Adeola, additional, Olubusuyi, Adewumi M., additional, Oluwapelumi, Adeyemi O., additional, Amuri, Adrienne A., additional, Juru, Agnes, additional, Ramadan, Ahmad Mabrouk, additional, Kandeil, Ahmed, additional, Mostafa, Ahmed, additional, Rebai, Ahmed, additional, Sayed, Ahmed, additional, Kazeem, Akano, additional, Balde, Aladje, additional, Christoffels, Alan, additional, Trotter, Alexander J., additional, Campbell, Allan, additional, Keita, Alpha Kabinet, additional, Kone, Amadou, additional, Bouzid, Amal, additional, Souissi, Amal, additional, Agweyu, Ambrose, additional, Gutierrez, Ana V., additional, Page, Andrew J., additional, Yadouleton, Anges, additional, Vinze, Anika, additional, Happi, Anise N., additional, Chouikha, Anissa, additional, Iranzadeh, Arash, additional, Maharaj, Arisha, additional, Batchi-Bouyou, Armel Landry, additional, Ismail, Arshad, additional, Sylverken, Augustina, additional, Goba, Augustine, additional, Femi, Ayoade, additional, Sijuwola, Ayotunde Elijah, additional, Ibrahimi, Azeddine, additional, Marycelin, Baba, additional, Salako, Babatunde Lawal, additional, Oderinde, Bamidele S., additional, Bolajoko, Bankole, additional, Dhaala, Beatrice, additional, Herring, Belinda L., additional, Tsofa, Benjamin, additional, Mvula, Bernard, additional, Njanpop-Lafourcade, Berthe-Marie, additional, Marondera, Blessing T., additional, Khaireh, Bouh Abdi, additional, Kouriba, Bourema, additional, Adu, Bright, additional, Pool, Brigitte, additional, McInnis, Bronwyn, additional, Brook, Cara, additional, Williamson, Carolyn, additional, Anscombe, Catherine, additional, Pratt, Catherine B., additional, Scheepers, Cathrine, additional, Akoua-Koffi, Chantal G., additional, Agoti, Charles N., additional, Loucoubar, Cheikh, additional, Onwuamah, Chika Kingsley, additional, Ihekweazu, Chikwe, additional, Malaka, Christian Noël, additional, Peyrefitte, Christophe, additional, Omoruyi, Chukwuma Ewean, additional, Rafaï, Clotaire Donatien, additional, Morang’a, Collins M., additional, Nokes, D. James, additional, Lule, Daniel Bugembe, additional, Bridges, Daniel J., additional, Mukadi-Bamuleka, Daniel, additional, Park, Danny, additional, Baker, David, additional, Doolabh, Deelan, additional, Ssemwanga, Deogratius, additional, Tshiabuila, Derek, additional, Bassirou, Diarra, additional, Amuzu, Dominic S.Y., additional, Goedhals, Dominique, additional, Grant, Donald S., additional, Omuoyo, Donwilliams O., additional, Maruapula, Dorcas, additional, Wanjohi, Dorcas Waruguru, additional, Foster-Nyarko, Ebenezer, additional, Lusamaki, Eddy K., additional, Simulundu, Edgar, additional, Ong’era, Edidah M., additional, Ngabana, Edith N., additional, Abworo, Edward O., additional, Otieno, Edward, additional, Shumba, Edwin, additional, Barasa, Edwine, additional, Ahmed, El Bara, additional, Kampira, Elizabeth, additional, Fahime, Elmostafa El, additional, Lokilo, Emmanuel, additional, Mukantwari, Enatha, additional, Cyril, Erameh, additional, Philomena, Eromon, additional, Belarbi, Essia, additional, Simon-Loriere, Etienne, additional, Anoh, Etilé A., additional, Leendertz, Fabian, additional, Taweh, Fahn M., additional, Wasfi, Fares, additional, Abdelmoula, Fatma, additional, Takawira, Faustinos T., additional, Derrar, Fawzi, additional, Ajogbasile, Fehintola V, additional, Treurnicht, Florette, additional, Onikepe, Folarin, additional, Ntoumi, Francine, additional, Muyembe, Francisca M., additional, Ngiambudulu, Francisco, additional, Zongo Ragomzingba, Frank Edgard, additional, Dratibi, Fred Athanasius, additional, Iyanu, Fred-Akintunwa, additional, Mbunsu, Gabriel K., additional, Thilliez, Gaetan, additional, Kay, Gemma L., additional, Akpede, George O., additional, George, Uwem E., additional, van Zyl, Gert, additional, Awandare, Gordon A., additional, Schubert, Grit, additional, Maphalala, Gugu P., additional, Ranaivoson, Hafaliana C., additional, Lemriss, Hajar, additional, Omunakwe, Hannah E, additional, Onywera, Harris, additional, Abe, Haruka, additional, Karray, Hela, additional, Nansumba, Hellen, additional, Triki, Henda, additional, Adje Kadjo, Herve Albéric, additional, Elgahzaly, Hesham, additional, Gumbo, Hlanai, additional, mathieu, Hota, additional, Kavunga-Membo, Hugo, additional, Smeti, Ibtihel, additional, Olawoye, Idowu B., additional, Adetifa, Ifedayo, additional, Odia, Ikponmwosa, additional, Boubaker, Ilhem Boutiba-Ben, additional, Ssewanyana, Isaac, additional, Wurie, Isatta, additional, Konstantinus, Iyaloo S, additional, Afiwa Halatoko, Jacqueline Wemboo, additional, Ayei, James, additional, Sonoo, Janaki, additional, Lekana-Douki, Jean Bernard, additional, Makangara, Jean-Claude C., additional, Tamfum, Jean-Jacques M., additional, Heraud, Jean-Michel, additional, Shaffer, Jeffrey G., additional, Giandhari, Jennifer, additional, Musyoki, Jennifer, additional, Uwanibe, Jessica N., additional, Bhiman, Jinal N., additional, Yasuda, Jiro, additional, Morais, Joana, additional, Mends, Joana Q., additional, Kiconco, Jocelyn, additional, Sandi, John Demby, additional, Huddleston, John, additional, Odoom, John Kofi, additional, Morobe, John M., additional, Gyapong, John O., additional, Kayiwa, John T., additional, Okolie, Johnson C., additional, Xavier, Joicymara Santos, additional, Gyamfi, Jones, additional, Kofi Bonney, Joseph Humphrey, additional, Nyandwi, Joseph, additional, Everatt, Josie, additional, Farah, Jouali, additional, Nakaseegu, Joweria, additional, Ngoi, Joyce M., additional, Namulondo, Joyce, additional, Oguzie, Judith U., additional, Andeko, Julia C., additional, Lutwama, Julius J., additional, O’Grady, Justin, additional, Siddle, Katherine J, additional, Victoir, Kathleen, additional, Adeyemi, Kayode T., additional, Tumedi, Kefentse A., additional, Carvalho, Kevin Sanders, additional, Mohammed, Khadija Said, additional, Musonda, Kunda G., additional, Duedu, Kwabena O., additional, Belyamani, Lahcen, additional, Fki-Berrajah, Lamia, additional, Singh, Lavanya, additional, Biscornet, Leon, additional, de Oliveira Martins, Leonardo, additional, Chabuka, Lucious, additional, Olubayo, Luicer, additional, Deng, Lul Lojok, additional, Ochola-Oyier, Lynette Isabella, additional, Mine, Madisa, additional, Ramuth, Magalutcheemee, additional, Mastouri, Maha, additional, ElHefnawi, Mahmoud, additional, Mbanne, Maimouna, additional, Matsheka, Maitshwarelo I., additional, Kebabonye, Malebogo, additional, Diop, Mamadou, additional, Momoh, Mambu, additional, Lima Mendonça, Maria da Luz, additional, Venter, Marietjie, additional, Paye, Marietou F, additional, Faye, Martin, additional, Nyaga, Martin M., additional, Mareka, Mathabo, additional, Damaris, Matoke-Muhia, additional, Mburu, Maureen W., additional, Mpina, Maximillian, additional, Claujens Chastel, Mfoutou Mapanguy, additional, Owusu, Michael, additional, Wiley, Michael R., additional, Tatfeng, Mirabeau Youtchou, additional, Ayekaba, Mitoha Ondo’o, additional, Abouelhoda, Mohamed, additional, Beloufa, Mohamed Amine, additional, Seadawy, Mohamed G, additional, Khalifa, Mohamed K., additional, Dellagi, Mohammed Koussai, additional, Matobo, Mooko Marethabile, additional, Kane, Mouhamed, additional, Ouadghiri, Mouna, additional, Salou, Mounerou, additional, Mbulawa, Mphaphi B., additional, Saibu, Mudashiru Femi, additional, Mwenda, Mulenga, additional, Kaba, Muluken, additional, Phan, My V.T., additional, Abid, Nabil, additional, Touil, Nadia, additional, Rujeni, Nadine, additional, Ismael, Nalia, additional, Top, Ndeye Marieme, additional, Dia, Ndongo, additional, Mabunda, Nédio, additional, Hsiao, Nei-yuan, additional, Silochi, Nelson Boricó, additional, Saasa, Ngonda, additional, Bbosa, Nicholas, additional, Murunga, Nickson, additional, Gumede, Nicksy, additional, Wolter, Nicole, additional, Sitharam, Nikita, additional, Ndodo, Nnaemeka, additional, Ajayi, Nnennaya A., additional, Tordo, Noël, additional, Mbhele, Nokuzola, additional, Razanajatovo, Norosoa H, additional, Iguosadolo, Nosamiefan, additional, Mba, Nwando, additional, Kingsley, Ojide C., additional, Sylvanus, Okogbenin, additional, Peter, Okokhere, additional, Femi, Oladiji, additional, Testimony, Olumade, additional, Ogunsanya, Olusola Akinola, additional, Fakayode, Oluwatosin, additional, Ogah, Onwe E., additional, Faye, Ousmane, additional, Smith-Lawrence, Pamela, additional, Ondoa, Pascale, additional, Combe, Patrice, additional, Nabisubi, Patricia, additional, Semanda, Patrick, additional, Oluniyi, Paul E., additional, Arnaldo, Paulo, additional, Quashie, Peter Kojo, additional, Bejon, Philip, additional, Dussart, Philippe, additional, Bester, Phillip A., additional, Mbala, Placide K., additional, Kaleebu, Pontiano, additional, Abechi, Priscilla, additional, El-Shesheny, Rabeh, additional, Joseph, Rageema, additional, Aziz, Ramy Karam, additional, Essomba, René Ghislain, additional, Ayivor-Djanie, Reuben, additional, Njouom, Richard, additional, Phillips, Richard O., additional, Gorman, Richmond, additional, Kingsley, Robert A., additional, Audu, Rosemary, additional, Carr, Rosina A.A., additional, Kabbaj, Saâd El, additional, Gargouri, Saba, additional, Masmoudi, Saber, additional, Sankhe, Safietou, additional, Mohamed, Sahra Isse, additional, Mhalla, Salma, additional, Hosch, Salome, additional, Kassim, Samar Kamal, additional, Metha, Samar, additional, Trabelsi, Sameh, additional, Lemriss, Sanaâ, additional, Agwa, Sara Hassan, additional, Mwangi, Sarah Wambui, additional, Doumbia, Seydou, additional, Makiala-Mandanda, Sheila, additional, Aryeetey, Sherihane, additional, Ahmed, Shymaa S., additional, Ahmed, Sidi Mohamed, additional, Elhamoumi, Siham, additional, Moyo, Sikhulile, additional, Lutucuta, Silvia, additional, Gaseitsiwe, Simani, additional, Jalloh, Simbirie, additional, Andriamandimby, Soafy, additional, Oguntope, Sobajo, additional, Grayo, Solène, additional, Lekana-Douki, Sonia, additional, Prosolek, Sophie, additional, Ouangraoua, Soumeya, additional, van Wyk, Stephanie, additional, Schaffner, Stephen F., additional, Kanyerezi, Stephen, additional, Ahuka-Mundeke, Steve, additional, Rudder, Steven, additional, Pillay, Sureshnee, additional, Nabadda, Susan, additional, Behillil, Sylvie, additional, Budiaki, Sylvie L., additional, van der Werf, Sylvie, additional, Mashe, Tapfumanei, additional, Aanniz, Tarik, additional, Mohale, Thabo, additional, Le-Viet, Thanh, additional, Velavan, Thirumalaisamy P., additional, Schindler, Tobias, additional, Maponga, Tongai, additional, Bedford, Trevor, additional, Anyaneji, Ugochukwu J., additional, Chinedu, Ugwu, additional, Ramphal, Upasana, additional, Enouf, Vincent, additional, Nene, Vishvanath, additional, Gorova, Vivianne, additional, Roshdy, Wael H., additional, Karim, Wasim Abdul, additional, Ampofo, William K., additional, Preiser, Wolfgang, additional, Choga, Wonderful T., additional, Ahmed, Yahaya Ali, additional, Ramphal, Yajna, additional, Bediako, Yaw, additional, Naidoo, Yeshnee, additional, Butera, Yvan, additional, de Laurent, Zaydah R., additional, Ouma, Ahmed E.O., additional, von Gottberg, Anne, additional, Githinji, George, additional, Moeti, Matshidiso, additional, Tomori, Oyewale, additional, Sabeti, Pardis C., additional, Sall, Amadou A., additional, Oyola, Samuel O., additional, Tebeje, Yenew K., additional, Tessema, Sofonias K., additional, de Oliveira, Tulio, additional, Happi, Christian, additional, Lessells, Richard, additional, Nkengasong, John, additional, and Wilkinson, Eduan, additional

Published

2022

28. First Detection of the Invasive Mosquito Vector Aedes albopictus (Diptera: Culicidae) in Benin, West Africa, 2021

Author

Yadouleton, Anges, primary, Hounkanrin, Gildas, additional, Tchibozo, Carine, additional, Bialonski, Alexandra, additional, Schmidt-Chanasit, Jonas, additional, and Jöst, Hanna, additional

Published

2022

29. Is biological larviciding against malaria a starting point for integrated multi-disease control? Observations from a cluster randomized trial in rural Burkina Faso

Author

Dambach, Peter, primary, Bärnighausen, Till, additional, Yadouleton, Anges, additional, Dambach, Martin, additional, Traoré, Issouf, additional, Korir, Patricia, additional, Ouedraogo, Saidou, additional, Nikiema, Moustapha, additional, Sauerborn, Rainer, additional, Becker, Norbert, additional, and Louis, Valérie R., additional

Published

2021

30. Is biological larviciding against malaria a starting point for integrated multi-disease control? Observations from a cluster randomized trial in rural Burkina Faso

Author

Dambach, Peter, Barnighausen, Till, Yadouleton, Anges, Dambach, Martin, Traore, Issouf, Korir, Patricia, Ouedraogo, Saidou, Nikiema, Moustapha, Sauerborn, Rainer, Becker, Norbert, Louis, Valerie R., Dambach, Peter, Barnighausen, Till, Yadouleton, Anges, Dambach, Martin, Traore, Issouf, Korir, Patricia, Ouedraogo, Saidou, Nikiema, Moustapha, Sauerborn, Rainer, Becker, Norbert, and Louis, Valerie R.

Abstract

Objectives To evaluate the impact of anti-malaria biological larviciding with Bacillus thuringiensis israelensis on non-primary target mosquito species in a rural African setting. Methods A total of 127 villages were distributed in three study arms, each with different larviciding options in public spaces: i) no treatment, ii) full or iii) guided intervention. Geographically close villages were grouped in clusters to avoid contamination between treated and untreated villages. Adult mosquitoes were captured in light traps inside and outside houses during the rainy seasons of a baseline and an intervention year. After enumeration, a negative binomial regression was used to determine the reductions achieved in the different mosquito species through larviciding. Results Malaria larviciding interventions showed only limited or no impact against Culex mosquitoes; by contrast, reductions of up to 34% were achieved against Aedes when all detected breeding sites were treated. Culex mosquitoes were captured in high abundance in semi-urban settings while more Aedes were found in rural villages. Conclusions Future malaria larviciding programs should consider expanding onto the breeding habitats of other disease vectors, such as Aedes and Culex and evaluate their potential impact. Since the major cost components of such interventions are labor and transport, other disease vectors could be targeted at little additional cost.

Published

2021

31. An Observational Laboratory-Based Assessment of SARS-CoV-2 Molecular Diagnostics in Benin, Western Africa

Author

Sander, Anna-Lena, primary, Yadouleton, Anges, additional, Moreira-Soto, Andres, additional, Tchibozo, Carine, additional, Hounkanrin, Gildas, additional, Badou, Yvette, additional, Fischer, Carlo, additional, Krause, Nina, additional, Akogbeto, Petas, additional, F. de Oliveira Filho, Edmilson, additional, Dossou, Anges, additional, Brünink, Sebastian, additional, Drosten, Christian, additional, Aïssi, Melchior A. Joël, additional, Harouna Djingarey, Mamoudou, additional, Hounkpatin, Benjamin, additional, Nagel, Michael, additional, and Drexler, Jan Felix, additional

Published

2021

32. Antimicrobial resistance and toxigenic profiles of bacteria isolated from tropical shrimps (Farfantepenaeus notialis and Penaeus monodon) in Cameroun

Author

OMBEDE, Sabine Ninelle NGA, primary, DOUGNON, Victorien Tamègnon, additional, KOUDOKPON, Hornel, additional, DEGUENON, Esther, additional, NGOMO, Rajeunie Pernelle Jaelle MINDZIE, additional, TCHIBOZO, Carine, additional, GNIMATIN, Jean Pierre, additional, TCHOUMBOUGNANG, François, additional, YADOULETON, Anges, additional, and DOUGNON, Jacques, additional

Published

2020

33. Limited specificity of serologic tests for SARS-CoV-2 antibody detection, Benin, Western Africa

Author

Yadouleton, Anges, primary, Sander, Anna-Lena, additional, Moreira-Soto, Andres, additional, Tchibozo, Carine, additional, Hounkanrin, Gildas, additional, Badou, Yvette, additional, Fischer, Carlo, additional, Krause, Nina, additional, Akogbeto, Petas, additional, de Oliveira Filho, Edmilson F., additional, Dossou, Anges, additional, Brünink, Sebastian, additional, Joël AÏssi, Melchior A., additional, Djingarey, Mamoudou Harouna, additional, Hounkpatin, Benjamin, additional, Nagel, Michael, additional, and Drexler, Jan Felix, additional

Published

2020

34. Host-feeding Preference of Anopheles Species under Prolonged Use of Insecticide-treated Bed Nets in Kamuli District, Uganda: Implications for Vector Control

Author

Kabbale, Fredrick G., primary, Akol, Anne M., primary, Kaddu, John B., primary, Matovu, Enock, primary, Kazibwe, Anne, primary, Yadouleton, Anges, primary, and Onapa, Ambrose W., primary

Published

2020

35. Diagnostics and Spread of SARS-CoV-2 in Western Africa: An Observational Laboratory-Based Study from Benin

Author

Yadouleton, Anges, primary, Sander, Anna-Lena, additional, Moreira-Soto, Andres, additional, Tchibozo, Carine, additional, Hounkanrin, Gildas, additional, Badou, Yvette, additional, Fischer, Carlo, additional, Krause, Nina, additional, Akogbeto, Petas, additional, de Oliveira Filho, Edmilson F., additional, Dossou, Anges, additional, Brünink, Sebastian, additional, Joël AÏssi, Melchior A., additional, Harouna Djingarey, Mamoudou, additional, Hounkpatin, Benjamin, additional, Nagel, Michael, additional, and Drexler, Jan Felix, additional

Published

2020

36. Lassa fever in Benin: description of the 2014 and 2016 epidemics and genetic characterization of a new Lassa virus

Author

Yadouleton, Anges, primary, Picard, Caroline, additional, Rieger, Toni, additional, Loko, Frederic, additional, Cadar, Daniel, additional, Kouthon, Emile Cossi, additional, Job, Emmanuel Obolli, additional, Bankolé, Honoré, additional, Oestereich, Lisa, additional, Gbaguidi, Fernand, additional, Pahlman, Meike, additional, Becker-Ziaja, Beate, additional, Journeaux, Alexandra, additional, Pannetier, Delphine, additional, Mély, Stéphane, additional, Mundweiler, Stéphanie, additional, Thomas, Damien, additional, Kohossi, Leon, additional, Saizonou, Raoul, additional, Kakaï, Clement Glele, additional, Da Silva, Magloire, additional, Kossoubedie, Sonia, additional, Kakonku, André Lukusa, additional, M’Pelé, Pierre, additional, Gunther, Stephan, additional, Baize, Sylvain, additional, and Fichet-Calvet, Elisabeth, additional

Published

2020

37. Enhancing readiness in managing mpox outbreaks in Africa

Author

Faye, Martin, Roth, Cathy, Fitchett, Joseph R A, Berthet, Xavier, Yadouleton, Anges, Faye, Ousmane, Sall, Amadou Alpha, and Sow, Abdourahmane

Published

2024

38. First Detection of the Invasive Mosquito Vector Aedes albopictus(Diptera: Culicidae) in Benin, West Africa, 2021

Author

Yadouleton, Anges, Hounkanrin, Gildas, Tchibozo, Carine, Bialonski, Alexandra, Schmidt-Chanasit, Jonas, and Jöst, Hanna

Abstract

Aedes albopictus(Skuse) is native to Southeast Asia and has colonized tropical and temperate regions worldwide in the last three to four decades. In Africa, data on its distribution is incomplete. Most studies having focused on the abundance, competition to other species, and phylogenetics of this vector are from the central African region. Here, we report the first detection of Ae. albopictusin Benin, West Africa. A total of 13 specimens were collected during the study period in 2021. The phylogenetic analysis of a cytochrome oxidase c subunit I gene fragment revealed a close relationship to populations from tropical India. Because of its close geographical proximity to areas where it has been found, it is assumed that the species was introduced several years before and is currently widely distributed in Benin. Additional studies are needed to explore its distribution, expansion range, and competitive effects on native species.

Published

2022

39. Effect of biological larviciding with Bacillus thuringiensis israelensis for malaria control on non-target vector mosquito species in rural Burkina Faso – A cluster randomized trial

Author

Dambach, Peter, primary, Bärnighausen, Till, additional, Yadouleton, Anges, additional, Dambach, Martin, additional, Traore, Issouf, additional, Korir, Patricia, additional, Ouedraogo, Saidou, additional, Sié, Ali, additional, Sauerborn, Rainer, additional, Becker, Norbert, additional, and Louis, Valérie, additional

Published

2019

40. Contrôle de qualité des rideaux imprégnés à la bifenthrine en vue de leur utilisation et vulgarisation au Bénin

Author

Yadouleton, Anges, primary, Klotoe, Jean-Robert, additional, Agbanrin, Ramziyath, additional, Ahissou, Fabrice, additional, Houndeton, Geraldo, additional, Tossou, Roland, additional, Agolinou, Achaz, additional, and Akogbeto, Martin, additional

Published

2019

41. Données entomologiques préliminaires pour la mise en place d’une pulvérisation intra-domiciliaire à grande échelle dans la commune de Corpargo au Nord-Est du Bénin

Author

Yadouleton, Anges, primary, Aikpon, Rock, additional, Houndeton, Geraldo, additional, Aboubacar, Sidick, additional, Ursins, Fabrice, additional, Tchibçozo, Carine, additional, Agolinou, Achaz, additional, and Akogbeto, Martin, additional

Published

2019

42. Epidemiological Survey of Rotaviruses Responsible for Infantile Diarrhea by the Immunomolecular Technique in Cotonou (Benin, West Africa)

Author

Agbla, Jijoho Mischaël Michel, primary, Capo-Chichi, Annick, additional, Agbankpé, Alidéhou Jerrold, additional, Dougnon, Tamègnon Victorien, additional, Yadouleton, Anges William M., additional, Houngbégnon, Olivia, additional, Glele-Kakai, Clément, additional, Armah, George Enyimah, additional, and Bankolé, Honoré, additional

Published

2018

43. Sensibilité des populations d’ Aedes Aegypti vis-à-vis des organochlorés, pyréthrinoïdes et des carbamates dans la commune de Natitingou au Nord-Est du Bénin

Author

Tossou Roland, Baba-Moussa Lamine, Tchibozo Carine, Klotoe Jean-Robert, Yadouleton Anges, Chabi Christophe, Agbanrin Ramziyath, and Agolinou Achaz

Subjects

0301 basic medicine, Carbamate, Veterinary medicine, medicine.medical_treatment, Outbreak, Bendiocarb, Aedes aegypti, Pesticide, Biology, medicine.disease, biology.organism_classification, Dengue fever, 03 medical and health sciences, chemistry.chemical_compound, 030104 developmental biology, chemistry, Vector (epidemiology), parasitic diseases, medicine, Permethrin, medicine.drug

Abstract

Insecticide treatments for crop protection have often be cited as the main factor of the resistance selection of Aedes aegypti. This is however the main vector dengue fever. To verify this hypothesis, bioassay tests was performed on adults collected from the field (2 urban and 2 rural areas) at Natitingou to assess the susceptibility of dengue vectors to insecticideimpregnated papers (permethrin 0.75%, delthamethrin 0.05%, lambdacyalothrin 0.05%, DDT 4%, and bendiocarb 0.1%) following WHO Pesticide Evaluation Scheme. Results from this study showed that Ae. Aegypti populations were resistant to DDT and pyrethroids with 12% and 38% respectively as mean of mortality despite the areas of mosquitoes collection. However, they were fully susceptible to bendiocarb. Our study showed that Aedes aegypti populations had developed resistance to organochlorine and pyrethroids, but are susceptible to carbamate. The low mortality rate recorded in all populations of Ae. Aegypti with bendiocarb is encouraging in regards to the use of this insecticide as an alternative in case of outbreak of dengue fever in this district of Benin.

Published

2018

44. Evaluation du comportement trophique de Aedes aegypti dans la ville de cotonou au sud du Bénin

Author

Tchibozo Carine, K M Ahadji-Dabla, Agbanrin Ramziyath, Dramane Gado, Agolinou Achaz, Baba-Moussa Lamine, Tossou Roland, and Yadouleton Anges

Subjects

Aedes, Veterinary medicine, education.field_of_study, biology, 030231 tropical medicine, Population, virus diseases, Aedes aegypti, biology.organism_classification, Blood meal, 03 medical and health sciences, 0302 clinical medicine, 030212 general & internal medicine, education

Abstract

In order to evaluate the trophic behavior of Aedes aegypti in the city of Cotonou, southern Benin, a cross-sectional study was conducted in urban and periurban neighborhoods from April 2016 to August 2017 to collect Ae. Aegypti populations. To achieve this goal, day and night collections, twice a month for one year were done where Ae. Aegypti populations were caught by Human Landing Catch and BG-Sentinel traps. 3,892 Aedes caught by different methods showed that Ae. Aegypti and Ae. circumluteolus are more abundant in urban than peri-urban areas (p

Published

2018

45. Detection and characterization of a novel rhabdovirus in Aedes cantans mosquitoes and evidence for a mosquito-associated new genus in the family Rhabdoviridae

Author

Shahhosseini, Nariman, primary, Lühken, Renke, additional, Jöst, Hanna, additional, Jansen, Stephanie, additional, Börstler, Jessica, additional, Rieger, Toni, additional, Krüger, Andreas, additional, Yadouleton, Anges, additional, de Mendonça Campos, Renata, additional, Cirne-Santos, Claudio Cesar, additional, Ferreira, Davis Fernandes, additional, Garms, Rolf, additional, Becker, Norbert, additional, Tannich, Egbert, additional, Cadar, Daniel, additional, and Schmidt-Chanasit, Jonas, additional

Published

2017

46. Bendiocarb, a potential alternative against pyrethroid resistant Anopheles gambiae in Benin, West Africa

Author

Akogbéto, Martin C, primary, Padonou, Gil Germain, additional, Gbénou, Dina, additional, Irish, Seth, additional, and Yadouleton, Anges, additional

Published

2010

47. Insecticide resistance status in Anopheles gambiae in southern Benin

Author

Yadouleton, Anges W, primary, Padonou, Gil, additional, Asidi, Alex, additional, Moiroux, Nicolas, additional, Bio-Banganna, Sahabi, additional, Corbel, Vincent, additional, N'guessan, Raphael, additional, Gbenou, Dina, additional, Yacoubou, Imorou, additional, Gazard, Kinde, additional, and Akogbeto, Martin C, additional

Published

2010

48. Development of vegetable farming: a cause of the emergence of insecticide resistance in populations of Anopheles gambiae in urban areas of Benin

Author

Yadouleton, Anges William M, primary, Asidi, Alex, additional, Djouaka, Rousseau F, additional, Braïma, James, additional, Agossou, Christian D, additional, and Akogbeto, Martin C, additional

Published

2009

49. Decreased proportions of indoor feeding and endophily in Anopheles gambiae s.l. populations following the indoor residual spraying and insecticide-treated net interventions in Benin( West Africa).

Author

Germain Padonou, Gil, Gbedjissi, Ghelus, Yadouleton, Anges, Azondekon, Roseric, Razack, Oss‚, Oussou, Olivier, Gnanguenon, Virgile, Rock, Aikpon, Sezonlin, Michel, and Akogbeto, Martin

Subjects

ANOPHELES, MOSQUITOES, FRESHWATER animals, ATOMIZATION, INSECTICIDES, MARINE biology

Abstract

Background: In many parts of Africa as in Benin, the main strategies of vector control are based on the scaling-up of Long Lasting Insecticide Treated Nets (LLITNs) and indoor residual spraying (IRS). The need to understand the biological implications of IRS in large scale and full coverage of LLITNs is paramount. It is in this context that the present study was conducted. It aims to evaluate the effect of a large scale IRS using a non-pyrethroid insecticide and full coverage of deltamethrin treated nets on the behavior of An. gambiae s.l. in the intervention areas compared to untreated areas used as controls. Methods: Mosquitoes were collected using human landing catches, pyrethrum spray catches and window exit traps to assess reduction of entry rate, endophily rate, endophagy rate and overall mortality rate in natural populations of An. gambiae s.l. before IRS and LLITNs intervention (2007) and after in 2008 and 2010. Results: In the IRS arm, endophily rate was 67.13% before intervention and 4.5% after intervention, whereas in the control arm it was stable at 51.67% (P > 0 .05). In the LLITN arm endophily rates also decreased after intervention. After the IRS, no gravid mosquitoes were collected from all treated localities, but LLITN performance was not that spectacular. The proportion of mosquitoes biting indoors in the IRS arm decreased from 67.09% before intervention to 42.85% after intervention, compared to a low but significant decrease (71.31% to 57. 46%) in the LLITN arm. The use of vector control tools and behavior of the host would be the main factors that modify the behavior of taking a human blood meal observed on An. gambiae s.l. inside human dwellings. Conclusion: The impact on the behavior of An. gambiae s.l. observed with the bendiocarb used in IRS was highly effective compared with the free distribution of LLITNs in terms of mortality and the decrease of proportions of indoor feeding. Despite this efficacy, there is a need for complementary tools and research of alternative strategy oriented on effective health education, and the use of powerful tools such as IRS, LLITNs, larviciding and repellents. [ABSTRACT FROM AUTHOR]

Published

2012

50. Evaluation of the efficacy of bendiocarb in indoor residual spraying against pyrethroid resistant malaria vectors in Benin: results of the third campaign

Author

Ossè Razaki, Aikpon Rock, Padonou Gil, Oussou Olivier, Yadouléton Anges, and Akogbéto Martin

Subjects

An.gambiae, EIR, Longevity, IRS, Bendiocarb, Resistance, Benin, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background Since 2008, the National Malaria Control Program (NMCP) has been engaged in the implementation of indoor residual spraying (IRS) in Benin. The first and second round was a success with a drastic decrease of malaria transmission in areas under IRS. We present here the results of the third round. The purpose of this study was to compare the results of the third round of IRS to those achieved during the first two rounds. A second success of IRS will enable the Government of Benin to extend the strategy to other areas. Methods Mosquito collections were carried out in the department of Ouémé where the homes of four districts were treated with bendiocarb. In these districts, more than 350 000 inhabitants were protected by IRS. A fifth untreated district served as control. In the five districts, mosquito collections were organized to follow the dynamics of malaria transmission and possible changes in the behavior of mosquitoes. Results A significant reduction in human biting rate was recorded after the third round of IRS, specifically in Adjohoun (89.78%), Dangbo (56.8%) and Missérété (93.22%) where an inhabitant received less than 2 bites of An. gambiae per night. During this same time, the entomological inoculation rate (EIR) declined dramatically in all areas under intervention (74.26% reduction). We also noted a significant reduction in longevity, the blood feeding rate of the vectors and an increase in exophily induced by bendiocarb on An. gambiae and Mansonia spp. Conclusion The present study showed, once again, the effectiveness of bendiocarb on anopheles populations resistant to pyrethroids. This product can be recommended in combination with other insecticides for the management of vector resistance to insecticides.

Published

2012