Your search keyword '"Dadzie, Samuel"' showing total 20 results

1. Estimating malaria transmission risk through surveillance of human–vector interactions in northern Ghana

Author

Coleman, Sylvester, Yihdego, Yemane, Gyamfi, Frank, Kolyada, Lena, Tongren, Jon Eric, Zigirumugabe, Sixte, Dery, Dominic B., Badu, Kingsley, Obiri-Danso, Kwasi, Boakye, Daniel, Szumlas, Daniel, Armistead, Jennifer S., and Dadzie, Samuel K.

Published

2023

2. Assessing the presence of 'Wuchereria bancrofti' infections in vectors using xenomonitoring in lymphatic filariasis endemic districts in Ghana

Author

Pi-Bansa, Sellase, Osei, Joseph HN, Kartey-Attipoe, Worlasi D, Elhassan, Elizabeth, Agyemang, David, Otoo, Sampson, Dadzie, Samuel K, Appawu, Maxwell A, Wilson, Michael D, Koudou, Benjamin G, de Souza, Dziedzom K, Utzinger, Jurg, and Boakye, Daniel A

Published

2019

3. Relationship between temperature and Anopheles gambiae sensu lato mosquitoes' susceptibility to pyrethroids and expression of metabolic enzymes

Author

Agyekum, Thomas Peprah, Arko-Mensah, John, Botwe, Paul Kingsley, Hogarh, Jonathan Nartey, Issah, Ibrahim, Dadzie, Samuel Kweku, Dwomoh, Duah, Billah, Maxwell Kelvin, Robins, Thomas, and Fobil, Julius Najah

Published

2022

4. Parallel Evolution in Mosquito Vectors—A Duplicated Esterase Locus is Associated With Resistance to Pirimiphos-methyl in Anopheles gambiae.

Author

Nagi, Sanjay C, Lucas, Eric R, Egyir-Yawson, Alexander, Essandoh, John, Dadzie, Samuel, Chabi, Joseph, Djogbénou, Luc S, Medjigbodo, Adandé A, Edi, Constant V, Ketoh, Guillaume K, Koudou, Benjamin G, Ashraf, Faisal, Clarkson, Chris S, Miles, Alistair, Weetman, David, and Donnelly, Martin J

Subjects

BIOLOGICAL evolution, ANOPHELES gambiae, CULEX pipiens, MALARIA prevention, ANOPHELES

Abstract

The primary control methods for the African malaria mosquito, Anopheles gambiae , are based on insecticidal interventions. Emerging resistance to these compounds is therefore of major concern to malaria control programs. The organophosphate (OP), pirimiphos-methyl, is a relatively new chemical in the vector control armory but is now widely used in indoor-residual spray campaigns. While generally effective, phenotypic resistance has developed in some areas in malaria vectors. Here, we used a population genomic approach to identify novel mechanisms of resistance to pirimiphos-methyl in A. gambiae s.l mosquitoes. In multiple populations, we found large and repeated signals of selection at a locus containing a cluster of detoxification enzymes, some of whose orthologs are known to confer resistance to OPs in Culex pipiens. Close examination revealed a pair of alpha-esterases, Coeae1f and Coeae2f , and a complex and diverse pattern of haplotypes under selection in A. gambiae, A. coluzzii and A. arabiensis. As in C. pipiens , copy number variants have arisen at this locus. We used diplotype clustering to examine whether these signals arise from parallel evolution or adaptive introgression. Using whole-genome sequenced phenotyped samples, we found that in West Africa, a copy number variant in A. gambiae is associated with resistance to pirimiphos-methyl. Overall, we demonstrate a striking example of contemporary parallel evolution which has important implications for malaria control programs. [ABSTRACT FROM AUTHOR]

Published

2024

5. Biting behaviour, spatio-temporal dynamics, and the insecticide resistance status of malaria vectors in different ecological zones in Ghana.

Author

Akuoko, Osei K., Dhikrullahi, Shittu B., Hinne, Isaac A., Mohammed, Abdul R., Owusu-Asenso, Christopher M., Coleman, Sylvester, Dadzie, Samuel K., Kyerematen, Rosina, Boakye, Daniel A., Wilson, Michael D., and Afrane, Yaw A.

Subjects

INSECTICIDE resistance, ECOLOGICAL zones, INSECTICIDE-treated mosquito nets, ANOPHELES gambiae, MALARIA, MALARIA prevention

Abstract

Background: A significant decrease in malaria morbidity and mortality has been attained using long-lasting insecticide-treated nets and indoor residual spraying. Selective pressure from these control methods influences changes in vector bionomics and behavioural pattern. There is a need to understand how insecticide resistance drives behavioural changes within vector species. This study aimed to determine the spatio-temporal dynamics and biting behaviour of malaria vectors in different ecological zones in Ghana in an era of high insecticide use for public health vector control. Methods: Adult mosquitoes were collected during the dry and rainy seasons in 2017 and 2018 from five study sites in Ghana in different ecological zones. Indoor- and outdoor-biting mosquitoes were collected per hour from 18:00 to 06:00 h employing the human landing catch (HLC) technique. Morphological and molecular species identifications of vectors were done using identification keys and PCR respectively. Genotyping of insecticide-resistant markers was done using the TaqMan SNP genotyping probe-based assays. Detection of Plasmodium falciparum sporozoites was determined using PCR. Results: A total of 50,322 mosquitoes belonging to four different genera were collected from all the study sites during the sampling seasons in 2017 and 2018. Among the Anophelines were Anopheles gambiae s.l. 93.2%, (31,055/33,334), An. funestus 2.1%, (690/33,334), An. pharoensis 4.6%, (1545/33,334), and An. rufipes 0.1% (44/33,334). Overall, 76.4%, (25,468/33,334) of Anopheles mosquitoes were collected in the rainy season and 23.6%, (7866/33,334) in the dry season. There was a significant difference (Z = 2.410; P = 0.0160) between indoor-biting (51.1%; 15,866/31,055) and outdoor-biting An. gambiae s.l. (48.9%; 15,189/31,055). The frequency of the Vgsc-1014F mutation was slightly higher in indoor-biting mosquitoes (54.9%) than outdoors (45.1%). Overall, 44 pools of samples were positive for P. falciparum CSP giving an overall sporozoite rate of 0.1%. Conclusion: Anopheles gambiae s.l. were more abundant indoors across all ecological zones of Ghana. The frequency of G119S was higher indoors than outdoors from all the study sites, but with higher sporozoite rates in outdoor mosquitoes in Dodowa and Kpalsogu. There is, therefore, an urgent need for a supplementary malaria control intervention to control outdoor-biting mosquitoes. [ABSTRACT FROM AUTHOR]

Published

2024

6. Genome-wide association studies reveal novel loci associated with pyrethroid and organophosphate resistance in Anopheles gambiae and Anopheles coluzzii.

Author

Lucas, Eric R., Nagi, Sanjay C., Egyir-Yawson, Alexander, Essandoh, John, Dadzie, Samuel, Chabi, Joseph, Djogbénou, Luc S., Medjigbodo, Adandé A., Edi, Constant V., Kétoh, Guillaume K., Koudou, Benjamin G., Van't Hof, Arjen E., Rippon, Emily J., Pipini, Dimitra, Harding, Nicholas J., Dyer, Naomi A., Cerdeira, Louise T., Clarkson, Chris S., Kwiatkowski, Dominic P., and Miles, Alistair

Subjects

INSECTICIDE resistance, ANOPHELES gambiae, GENOME-wide association studies, PYRETHROIDS, DNA copy number variations, DELTAMETHRIN

Abstract

Resistance to insecticides in Anopheles mosquitoes threatens the effectiveness of malaria control, but the genetics of resistance are only partially understood. We performed a large scale multi-country genome-wide association study of resistance to two widely used insecticides: deltamethrin and pirimiphos-methyl, using sequencing data from An. gambiae and An. coluzzii from ten locations in West Africa. Resistance was highly multi-genic, multi-allelic and variable between populations. While the strongest and most consistent association with deltamethrin resistance came from Cyp6aa1, this was based on several independent copy number variants (CNVs) in An. coluzzii, and on a non-CNV haplotype in An. gambiae. For pirimiphos-methyl, signals included Ace1, cytochrome P450s, glutathione S-transferases and the nAChR target site of neonicotinoid insecticides. The regions around Cyp9k1 and the Tep family of immune genes showed evidence of cross-resistance to both insecticides. These locally-varying, multi-allelic patterns highlight the challenges involved in genomic monitoring of resistance, and may form the basis for improved surveillance methods. Insecticide resistance in mosquitoes threatens the success of malaria control programmes. This study found that in different populations of a malaria mosquito species in West Africa, resistance is associated with different genes or different mutations in the same set of genes. [ABSTRACT FROM AUTHOR]

Published

2023

7. Resistance to pirimiphos-methyl in West African Anopheles is spreading via duplication and introgression of the Ace1 locus

Author

Grau-Bové, Xavier, Lucas, Eric, Pipini, Dimitra, Rippon, Emily, van ‘t Hof, Arjèn E., Constant, Edi, Dadzie, Samuel, Egyir-Yawson, Alexander, Essandoh, John, Chabi, Joseph, Djogbénou, Luc, Harding, Nicholas J., Miles, Alistair, Kwiatkowski, Dominic, Donnelly, Martin J., Weetman, David, Jorge Edouardo Amaya-Romero, Diego, Ayala, Battey, C. J., Philip, Bejon, Besansky, Nora J., Austin, Burt, Jorge, Cano, Caputo, Beniamino, Edi, Constant, Carlo, Costantini, Boubacar, Coulibaly, DELLA TORRE, Alessandra, Abdoulaye, Diabate´, João, Dinis, Eleanor, Drury, Jorge, Edouardo, Nohal, Elissa, John, Essandoh, Fontaine, Michael C., Godfray, H. Charles J., Hahn, Matthew W., Christa, Henrichs, Christina, Hubbart, Isaacs, Alison T., Musa, Jawara, Jeffreys, Anna E., Dushyanth, Jyothi, Maryam, Kamali, Kern, Andrew D., Kwiatkowski, Dominic P., Clarkson, Chris S., Lawniczak, Mara K. N., Gilbert Le Goff, Lucas, Eric R., Cinzia, Malangone, Mawejje, Henry D., Charles, Mbogo, Daniel, Mead, Janet, Midega, Alistair, Miles, Nwakanma, Davis C., Samantha, O’Loughlin, João, Pinto, Riehle, Michelle M., Vincent, Robert, Rockett, Kirk A., Rohatgi, Kyanne R., Kate, Rowlands, Schrider, Daniel R., Igor, Sharakhov, Victoria, Simpson, Jim, Stalker, Troco, Arlete D., Vernick, Kenneth D., David, Weetman, White, Bradley J., Wilding, Craig S., IRTA, Institute of Molecular Biology and Biotechnology (IMBB-FORTH), Foundation for Research and Technology - Hellas (FORTH), Maladies infectieuses et vecteurs : écologie, génétique, évolution et contrôle (MIVEGEC), Université de Montpellier (UM)-Centre National de la Recherche Scientifique (CNRS)-Institut de Recherche pour le Développement (IRD [France-Sud]), Centre de Recherche Entomologique de Cotonou (CREC), Ministère de la Santé, The Wellcome Trust Centre for Human Genetics [Oxford], University of Oxford [Oxford], Liverpool School of Tropical Medicine (LSTM), Instituto de Higiene e Medicina Tropical (IHMT), Global Health and Tropical Medicine (GHTM), Vector borne diseases and pathogens (VBD), Institut de Recerca i Tecnologia Agroalimentàries = Institute of Agrifood Research and Technology (IRTA), University of Oxford, and Fontaine lab

Subjects

Cancer Research, Insecticides, Heredity, Introgression, Anopheles gambiae, Anopheles Gambiae, QH426-470, Disease Vectors, Mosquitoes, Ghana, Insecticide Resistance, Geographical Locations, пиримифос-метил, 0302 clinical medicine, Medical Conditions, [SDV.MHEP.MI]Life Sciences [q-bio]/Human health and pathology/Infectious diseases, Invertebrate Genomics, Medicine and Health Sciences, Genetics(clinical), Copy-number variation, Association mapping, Genetics (clinical), SDG 15 - Life on Land, Data Management, Genetics, 0303 health sciences, education.field_of_study, biology, malaria vectors, genomics, insecticide resistance, anopheles gambiae, anopheles coluzzii, Anopheles, Eukaryota, Phylogenetic Analysis, Agriculture, Genomics, 3. Good health, Insects, Phylogenetics, Africa, Western, Genetic Mapping, Infectious Diseases, [SDE]Environmental Sciences, Acetylcholinesterase, Agrochemicals, Research Article, Computer and Information Sciences, африканские комары, Evolutionary Processes, DNA Copy Number Variations, Arthropoda, 030231 tropical medicine, Population, Locus (genetics), Mosquito Vectors, Genetic Introgression, 03 medical and health sciences, SDG 3 - Good Health and Well-being, Genes, Duplicate, Animals, Humans, Evolutionary Systematics, education, Molecular Biology, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology, Taxonomy, Evolutionary Biology, Haplotype, Organisms, Biology and Life Sciences, Organothiophosphorus Compounds, biology.organism_classification, Invertebrates, Malaria, Insect Vectors, Species Interactions, Haplotypes, Animal Genomics, Vector (epidemiology), People and Places, Africa, [SDE.BE]Environmental Sciences/Biodiversity and Ecology, Zoology, Entomology

Abstract

Vector population control using insecticides is a key element of current strategies to prevent malaria transmission in Africa. The introduction of effective insecticides, such as the organophosphate pirimiphos-methyl, is essential to overcome the recurrent emergence of resistance driven by the highly diverse Anopheles genomes. Here, we use a population genomic approach to investigate the basis of pirimiphos-methyl resistance in the major malaria vectors Anopheles gambiae and A. coluzzii. A combination of copy number variation and a single non-synonymous substitution in the acetylcholinesterase gene, Ace1, provides the key resistance diagnostic in an A. coluzzii population from Côte d’Ivoire that we used for sequence-based association mapping, with replication in other West African populations. The Ace1 substitution and duplications occur on a unique resistance haplotype that evolved in A. gambiae and introgressed into A. coluzzii, and is now common in West Africa primarily due to selection imposed by other organophosphate or carbamate insecticides. Our findings highlight the predictive value of this complex resistance haplotype for phenotypic resistance and clarify its evolutionary history, providing tools to for molecular surveillance of the current and future effectiveness of pirimiphos-methyl based interventions., Author summary Control of mosquito populations via insecticidal tools or interventions is a mainstay of campaigns to reduce malaria transmission. However, especially in sub-Saharan Africa, continued insecticidal selection pressure on the most important species of Anopheles malaria mosquitoes has favoured the evolutionary selection of increasingly effective resistance mechanisms. We investigate the genetic basis of resistance to the organophosphate pirimiphos-methyl, the dominant insecticide now used for indoor residual spraying campaigns in Africa. Genome-wide association analysis of a population from Cote d’Ivoire showed that resistant specimens share a unique combination of mutations in one gene, the acetylcholinesterase enzyme, which constitute the prime cause of pirimiphos-methyl resistance. Further testing of these mutations in diagnostic assays involving two major malaria vectors, A. coluzzii and A. gambiae, validate their use as informative predictors of pirimiphos-methyl resistance. Using data from a large collection of whole genome sequenced specimens from a broader range of locations (Burkina-Faso, Côte d’Ivoire, Ghana, and Guinea), our evolutionary analyses demonstrate that these mutations emerged in A. gambiae and transferred into A. coluzzii by inter-specific hybridisation. Our results show how resistance mechanisms in key malaria vectors have developed and spread, and provide validated tools for molecular surveillance to inform public health campaigns.

Published

2021

8. Effects of elevated temperatures on the development of immature stages of Anopheles gambiae (s.l.) mosquitoes.

Author

Agyekum, Thomas P., Arko‐Mensah, John, Botwe, Paul K., Hogarh, Jonathan N., Issah, Ibrahim, Dwomoh, Duah, Billah, Maxwell K., Dadzie, Samuel K., Robins, Thomas G., and Fobil, Julius N.

Abstract

Objective: This study investigated the effects of temperature on the development of the immature stages of Anopheles gambiae (s.l.) mosquitoes. Methods: Mosquito eggs were obtained from laboratory established colonies and reared under eight temperature regimes (25, 28, 30, 32, 34, 36, 38 and 40°C), and 80 ± 10% relative humidity. Larvae were checked daily for development to the next stage and for mortality. Pupation success, number of adults produced and sex ratio of the newly emerged adults were recorded. Larval survival was monitored every 24 h, and data were analysed using Kaplan–Meier survival analysis. Analysis of variance was used where data followed normal distribution, and a Kruskal–Wallis test where data were not normally distributed. Larval and pupal measurements were log‐transformed and analysed using ordinary least square regression with robust standard errors. Results: Increasing the temperature from 25 to 36°C decreased the development time by 10.57 days. Larval survival (X2(6) = 5353.12, p < 0.001) and the number of adults produced (X2(5) = 28.16, p < 0.001) decreased with increasing temperature. Increasing temperatures also resulted in significantly smaller larvae and pupae (p < 0.001). At higher temperatures, disproportionately more male than female mosquitoes were produced. Conclusions: Increased temperature affected different developmental stages in the life cycle of An. gambiae (s.l.) mosquitoes, from larval to adult emergence. This study contributes to the knowledge on the relationship between temperature and Anopheles mosquitoes and provides useful information for modelling vector population dynamics in the light of climate change. [ABSTRACT FROM AUTHOR]

Published

2022

9. Studies on the Feeding Behaviour of Larvae of the Predaceous Mosquito Culex (Lutzia) tigripes Grandpre and Chamoy (Diptera: Culicidae)

Author

Appawu, Maxwell A., Dadzie, Samuel K., and Quartey, Solomon Q.

Published

2000

10. Microsporidia MB is found predominantly associated with Anopheles gambiae s.s and Anopheles coluzzii in Ghana.

Author

Akorli, Jewelna, Akorli, Esinam Abla, Tetteh, Seraphim Naa Afoley, Amlalo, Godwin Kwame, Opoku, Millicent, Pwalia, Rebecca, Adimazoya, Michelle, Atibilla, Dorcas, Pi-Bansa, Sellase, Chabi, Joseph, and Dadzie, Samuel Kweku

Subjects

MICROSPORIDIA, ANOPHELES gambiae, PLASMODIUM, MOSQUITO vectors

Abstract

A vertically transmitted microsporidian, Microsporidia MB, with the ability to disrupt Plasmodium development was reported in Anopheles arabiensis from Kenya, East Africa. To demonstrate its range of incidence, archived DNA samples from 7575 Anopheles mosquitoes collected from Ghana were screened. MB prevalence was observed at 1.8%. An. gambiae s.s constituted 87% of positive mosquitoes while the remaining were from An. coluzzii. Both sibling species had similar positivity rates (24% and 19%; p = 0.42) despite the significantly higher number of An. gambiae s.s analysed (An. gambiae s.s = 487; An. coluzzii = 94; p = 0.0005). The microsporidian was also more prevalent in emerged adults from field-collected larvae than field-caught adults (p < 0.0001) suggestive of an efficient vertical transmission and/or horizontal transfer among larvae. This is the first report of Microsporidia MB in Anopheles mosquitoes in West Africa. It indicates possible widespread among malaria vector species and warrants investigations into the symbiont's diversity across sub-Saharan Africa. [ABSTRACT FROM AUTHOR]

Published

2021

11. Partial indoor residual spraying with pirimiphos-methyl as an effective and cost-saving measure for the control of Anopheles gambiae s.l. in northern Ghana.

Author

Coleman, Sylvester, Yihdego, Yemane, Sherrard-Smith, Ellie, Thomas, Churcher S., Dengela, Dereje, Oxborough, Richard M., Dadzie, Samuel K., Boakye, Daniel, Gyamfi, Frank, Obiri-Danso, Kwasi, Johns, Ben, Siems, Lilly V., Lucas, Bradford, Tongren, Jon Eric, Zigirumugabe, Sixte, Dery, Dominic, Fornadel, Christen, George, Kristen, Belemvire, Allison, and Carlson, Jenny

Subjects

ANOPHELES gambiae, INSECTICIDES, PYRETHROIDS, MORTALITY, MALARIA

Abstract

The scale up of indoor residual spraying (IRS) and insecticide treated nets have contributed significantly to global reductions in malaria prevalence over the last two decades. However, widespread pyrethroid resistance has necessitated the use of new and more expensive insecticides for IRS. Partial IRS with pirimiphos-methyl in experimental huts and houses in a village-wide trial was evaluated against Anopheles gambiae s.l. in northern Ghana. Four different scenarios in which either only the top or bottom half of the walls of experimental huts were sprayed, with or without also spraying the ceiling were compared. Mortality of An. gambiae s.l. on partially sprayed walls was compared with the standard procedures in which all walls and ceiling surfaces are sprayed. A small-scale trial was then conducted to assess the effectiveness, feasibility, and cost of spraying only the upper walls and ceiling as compared to full IRS and no spraying in northern Ghana. Human landing catches were conducted to estimate entomological indices and determine the effectiveness of partial IRS. An established transmission dynamics model was parameterized by an analysis of the experimental hut data and used to predict the epidemiological impact and cost effectiveness of partial IRS for malaria control in northern Ghana. In the experimental huts, partial IRS of the top (IRR 0.89, p = 0.13) or bottom (IRR 0.90, p = 0.15) half of walls and the ceiling was not significantly less effective than full IRS in terms of mosquito mortality. In the village trial, the annual entomological inoculation rate was higher for the unsprayed control (217 infective bites/person/year (ib/p/yr)) compared with the fully and partially sprayed sites, with 28 and 38 ib/p/yr, respectively. The transmission model predicts that the efficacy of partial IRS against all-age prevalence of malaria after six months would be broadly equivalent to a full IRS campaign in which 40% reduction is expected relative to no spray campaign. At scale, partial IRS in northern Ghana would have resulted in a 33% cost savings ($496,426) that would enable spraying of 36,000 additional rooms. These findings suggest that partial IRS is an effective, feasible, and cost saving approach to IRS that could be adopted to sustain and expand implementation of this key malaria control intervention. [ABSTRACT FROM AUTHOR]

Published

2021

12. Rapid high throughput SYBR green assay for identifying the malaria vectors Anopheles arabiensis, Anopheles coluzzii and Anopheles gambiae s.s. Giles.

Author

Chabi, Joseph, Van’t Hof, Arjen, N’dri, Louis K., Datsomor, Alex, Okyere, Dora, Njoroge, Harun, Pipini, Dimitra, Hadi, Melinda P., de Souza, Dziedzom K., Suzuki, Takashi, Dadzie, Samuel K., and Jamet, Helen P.

Subjects

ANOPHELES gambiae, ANOPHELES arabiensis, ANOPHELES, MOSQUITO vectors, MALARIA, CHROMOSOME banding, COMPLEX numbers

Abstract

The Anopheles gambiae sensu lato species complex consists of a number of cryptic species with different habitats and behaviours. These morphologically indistinct species are identified by chromosome banding. Several molecular diagnostic techniques for distinguishing between An. coluzzii and An. gambiae are still under improvement. Although, the current SINE method for identification between An. coluzzii and An. gambiae works reliably, this study describes a refinement of the SINE method to increase sensitivity for identification of An. coluzzii, An. gambiae and An. arabiensis based on amplicon dissociation curve characteristics. Field-collected samples, laboratory-reared colonies and crossed specimens of the two species were used for the design of the protocol. An. gambiae, An. coluzzii, and hybrids of the two species were sampled from Ghana and An. arabiensis from Kenya. Samples were first characterised using conventional SINE PCR method, and further assayed using SYBR green, an intercalating fluorescent dye. The three species and hybrids were clearly differentiated using the melting temperature of the dissociation curves, with derivative peaks at 72°C for An. arabiensis, 75°C for An. gambiae and 86°C for An. coluzzii. The hybrids (An. gambiae / An. coluzzii) showed both peaks. This work is the first to describe a SYBR green real time PCR method for the characterization of An. arabiensis, An. gambiae and An. coluzzii and was purposely designed for basic melt-curve analysis (rather than high-resolution melt-curve) to allow it to be used on a wide range of real-time PCR machines. [ABSTRACT FROM AUTHOR]

Published

2019

13. Evaluation of piperonyl butoxide in enhancing the efficacy of pyrethroid insecticides against resistant Anopheles gambiae s.l. in Ghana.

Author

Dadzie, Samuel K., Chabi, Joseph, Asafu-Adjaye, Andy, Owusu-Akrofi, Otubea, Baffoe-Wilmot, Aba, Malm, Keziah, Bart-Plange, Constance, Coleman, Sylvester, Appawu, Maxwell A., and Boakye, Daniel A.

Subjects

*PIPERONYL butoxide, *ANOPHELES gambiae, *PYRETHROIDS, *PERMETHRIN, *DELTAMETHRIN, *VECTOR control

Abstract

Background: Malaria vector control methods involving the use of pyrethroids remain the strategies being used against malaria vectors in Ghana. These methods include the use of long-lasting insecticidal nets and indoor residual spraying in many areas in Ghana. However, there is evidence that pyrethroid resistance is widespread in many areas in Ghana. Synergists have been shown to be useful in inhibiting the enzymes that are responsible for the development of resistance and hence enhance the insecticide susceptibility of Anopheles gambiae sensu lato ( s.l.) in many areas. The present study investigated the effect of piperonyl butoxide (PBO) on the susceptibility status of An. gambiae s.l. across some sentinel sites in Ghana. Methods: Three to five day old An. gambiae s.l. reared from larvae were used in WHO susceptibility tube assays. Batches of 20-25 female adult An. gambiae s.l. were exposed simultaneously to the insecticide alone and to the PBO + insecticide. The knock down rate after 60 min and mortality at 24 h were recorded. Results: Deltamethrin and permethrin resistance of An. gambiae s.l. was observed in all the sites in 2015 and 2016. The mortality after 24 h post exposure for deltamethrin ranged from 16.3% in Weija to 82.3% in Kade, whereas that for permethrin ranged from 3.8% in Gomoa Obuasi to 91.3% in Prestea. A significant increase in susceptibility to deltamethrin and less to permethrin was observed during both 2015 and 2016 years in most of the sites when An. gambiae s.l. mosquitoes were pre-exposed to PBO. Conclusion: Findings from this study showed that the use of PBO significantly enhanced the susceptibility of An. gambiae s.l. mosquitoes in most of the sentinel sites. It is recommended that vector control strategies incorporating PBO as a synergist can be effective in killing mosquitoes in the presence of deltamethrin and permethrin resistance. [ABSTRACT FROM AUTHOR]

Published

2017

14. Species composition and insecticide resistance status of Anopheles gambiae (s.l.) (Culicidae) in Kome, southern Chad and the implications for malaria control.

Author

Dadzie, Samuel, Appawu, Maxwell A., Kerah-Hinzoumbe, Clement, Akogbeto, Martin C., Adimazoya, Michele, Kodindo Israel, Demba, Nakebang Fadel, Amen, and Williams, Jacob

Subjects

*INSECTICIDE resistance, *MALARIA treatment, *ANOPHELES gambiae, *ALLELES, *CHOLINESTERASE reactivators

Abstract

Background: The development and spread of insecticide resistance among malaria vectors, is a threat to the continued effectiveness of interventions to control and eliminate the disease. The status of insecticide resistance among malaria vector populations at two sites in Kome, southern Chad, was evaluated to inform decisions on vector control. Methods: Mosquito larvae were collected from temporary rain-filled and semi-permanent breeding places at two sites and reared in a laboratory. Emerging Anopheles gambiae (senso lato) (s.l.) adults were morphologically identified, sorted and evaluated for susceptibility to WHOPES recommended insecticides. Standardized biomolecular and biochemical methods were used to determine sibling species and molecular forms: knockdown resistant alleles (kdr-w) for pyrethroids and DDT; acetylcholinesterase-1 resistant alleles for organophosphate and carbamates; biochemical resistance through measurement of the levels of non-specific esterase (α and β), oxidase and glutathione-s-transferases activities. Results: Anopheles gambiae (s.l.) was the main vector group in the two study sites and comprised of Anopheles gambiae (senso stricto) (s.s.) and An. arabiensis, respectively, at 71 and 29 % in Site A, and 60 and 40 % at Site B. Anopheles gambiae (s.s.) was composed of M (Anopheles coluzzii) and S [nominotypical An. gambiae (s.s.)] molecular forms. Anopheles coluzzii accounted for over 98 % of the sub-group. There was extensive phenotypic resistance to pyrethroids, DDT and carbamates, but full susceptibility to organophosphates. Population-wide frequency of knockdown resistant allele in An. gambiae (s.l.) was 43 homozygous (RR), 19 heterozygous (RS) and 38 % homozygous susceptible (SS). When segregated by species and molecular forms, An. coluzzii had the highest kdr-w frequency of 37.4 homozygous resistant alleles, and 17.5 % heterozygous, with 8.3 % homozygote susceptible alleles. An. gambiae (s.s.) had 1 % homozygous resistant allele. Levels of esterase, oxidase and glutathione-s-transferases were not significantly different compared to fully susceptible laboratory raised An. gambiae (s.s.) Kisumu reference, although few individuals showed significant elevation of esterases (> 0.04 μg/protein), indicating a likely start of biochemical enzyme resistance. Conclusions: There is an urgent need for action to stop and reverse significant insecticide resistance in the area. A comprehensive entomological surveillance and monitoring program is needed to understand the full extent of resistance to enable realistic insecticide resistance management strategy, and also to track future changes in the vector populations. [ABSTRACT FROM AUTHOR]

Published

2016

15. Characteristics of asymptomatic Plasmodium spp. parasitaemia in Kwahu-Mpraeso, a malaria endemic mountainous district in Ghana, West Africa.

Author

Owusu, Ewurama D. A., Buabeng, Vincent, Dadzie, Samuel, Brown, Charles A., Grobusch, Martin P., and Mens, Petra

Subjects

MALARIA, PLASMODIUM, TRANSMISSION of protozoan diseases, SPOROZOITES, UNIVARIATE analysis, MULTIVARIATE analysis

Abstract

Background: Malaria control efforts in Ghana have reduced the countrywide average malaria prevalence from 71 % in 2000 to about 51 % in 2012; however, its main focus is on symptomatic malaria. If further progress is to be made, parasite reservoirs in asymptomatic carriers need to be moved into focus. This study profiles asymptomatic Plasmodium spp. parasitaemia amongst residents of mountainous Kwahu-Mpraeso in the Eastern region of Ghana. Methods: A cross-sectional study of 360 residents was carried out from October to December 2013. This included recording demographics, malaria testing of asymptomatic residents, and gathering of their malaria history. Assessment of malaria transmission was done with molecular identification of vectors, determination of sporozoite rate, insecticide resistance status and biting pattern. Univariate and multivariate analysis were used to establish risk determinants. Results: In Mpraeso, in the Kwahu highland of Eastern Region, children were at higher risk of asymptomatic parasitaemia, thereby contributing to the parasite reservoir and hence sustained malaria transmission. As well, findings suggested Hb AC genotype influenced susceptibility to asymptomatic malaria with 8.03-fold increase in odds (univariate) and 11.92-fold higher odds (multivariate) than the normal Hb AA. The mosquito vector predominant in the area was Anopheles gambiae sensu stricto of the homozygous pyrethroid resistant form (RR); with biting mainly occurring indoors. Conclusion: For an effective malaria control in this area, interventions should be formulated and implemented to target asymptomatic parasite reservoirs; especially in children and people with Hb AC. The dominant vector species An. gambiae s.s. and its feeding patterns of biting indoors should also be considered. [ABSTRACT FROM AUTHOR]

Published

2016

16. Metabolic and Target-Site Mechanisms Combine to Confer Strong DDT Resistance in Anopheles gambiae.

Author

Mitchell, Sara N., Rigden, Daniel J., Dowd, Andrew J., Lu, Fang, Wilding, Craig S., Weetman, David, Dadzie, Samuel, Jenkins, Adam M., Regna, Kimberly, Boko, Pelagie, Djogbenou, Luc, Muskavitch, Marc A. T., Ranson, Hilary, Paine, Mark J. I., Mayans, Olga, and Donnelly, Martin J.

Subjects

DDT (Insecticide), ANOPHELES gambiae, METABOLIC detoxification, GENETIC polymorphisms, RECOMBINANT proteins, X-ray crystallography

Abstract

The development of resistance to insecticides has become a classic exemplar of evolution occurring within human time scales. In this study we demonstrate how resistance to DDT in the major African malaria vector Anopheles gambiae is a result of both target-site resistance mechanisms that have introgressed between incipient species (the M- and S-molecular forms) and allelic variants in a DDT-detoxifying enzyme. Sequencing of the detoxification enzyme, Gste2, from DDT resistant and susceptible strains of An. gambiae, revealed a non-synonymous polymorphism (I114T), proximal to the DDT binding domain, which segregated with strain phenotype. Recombinant protein expression and DDT metabolism analysis revealed that the proteins from the susceptible strain lost activity at higher DDT concentrations, characteristic of substrate inhibition. The effect of I114T on GSTE2 protein structure was explored through X-ray crystallography. The amino acid exchange in the DDT-resistant strain introduced a hydroxyl group nearby the hydrophobic DDT-binding region. The exchange does not result in structural alterations but is predicted to facilitate local dynamics and enzyme activity. Expression of both wild-type and 114T alleles the allele in Drosophila conferred an increase in DDT tolerance. The 114T mutation was significantly associated with DDT resistance in wild caught M-form populations and acts in concert with target-site mutations in the voltage gated sodium channel (Vgsc-1575Y and Vgsc-1014F) to confer extreme levels of DDT resistance in wild caught An. gambiae. [ABSTRACT FROM AUTHOR]

Published

2014

17. Malaria transmission dynamics at a site in northern Ghana proposed for testing malaria vaccines.

Author

Appawu, Maxwell, Owusu-Agyei, Seth, Dadzie, Samuel, Asoala, Victor, Anto, Francis, Koram, Kwadwo, Rogers, William, Nkrumah, Francis, Hoffman, Stephen L., and Fryauff, David J.

Subjects

MALARIA transmission, MALARIA vaccines, ANOPHELES gambiae, INFECTION prevention, MOSQUITO control

Abstract

We studied the malaria transmission dynamics in Kassena Nankana district (KND), a site in northern Ghana proposed for testing malaria vaccines. Intensive mosquito sampling for 1 year using human landing catches in three micro-ecological sites (irrigated, lowland and rocky highland) yielded 18 228 mosquitoes. Anopheles gambiae s.l. and Anopheles funestus constituted 94.3% of the total collection with 76.8% captured from the irrigated communities. Other species collected but in relatively few numbers were Anopheles pharoensis (5.4%) and Anopheles rufipes (0.3%). Molecular analysis of 728 An. gambiae.s.l. identified Anopheles gambiae s.s. as the most dominant sibling species (97.7%) of the An. gambiae complex from the three ecological sites. Biting rates of the vectors (36.7 bites per man per night) were significantly higher (P<0.05) in the irrigated area than in the non-irrigated lowland (5.2) and rocky highlands (5.9). Plasmodium falciparum sporozoite rates of 7.2% (295/4075) and 7.1% (269/3773) were estimated for An. gambiae s.s. and An. funestus, respectively. Transmission was highly seasonal, and the heaviest transmission occurred from June to October. The intensity of transmission was higher for people in the irrigated communities than the non-irrigated ones. An overall annual entomological inoculation rate (EIR) of 418 infective bites was estimated in KND. There were micro-ecological variations in the EIRs, with values of 228 infective bites in the rocky highlands, 360 in the lowlands and 630 in the irrigated area. Approximately 60% of malaria transmission in KND occurred indoors during the second half of the night, peaking at daybreak between 04.00 and 06.00 hours. Vaccine trials could be conducted in this district, with timing dependent on the seasonal patterns and intensity of transmission taking into consideration the micro-geographical differences and vaccine trial objectives. [ABSTRACT FROM AUTHOR]

Published

2004

18. High insecticide resistance intensity of Anopheles gambiae (s.l.) and low efficacy of pyrethroid LLINs in Accra, Ghana.

Author

Pwalia, Rebecca, Joannides, Joannitta, Iddrisu, Alidu, Addae, Charlotte, Acquah-Baidoo, Dominic, Obuobi, Dorothy, Amlalo, Godwin, Akporh, Samuel, Gbagba, Sampson, Dadzie, Samuel K., Athinya, Duncan K., Hadi, Melinda P., Jamet, Helen Pates, and Chabi, Joseph

Subjects

ANOPHELES gambiae, FENITROTHION, INSECTICIDE resistance, INSECTICIDES, PLANT protection, VECTOR control, FERTILIZERS

Abstract

Background: Insecticide resistance of Anopheles gambiae (s.l.) against public health insecticides is increasingly reported in Ghana and need to be closely monitored. This study investigated the intensity of insecticide resistance of An. gambiae (s.l.) found in a vegetable growing area in Accra, Ghana, where insecticides, herbicides and fertilizers are massively used for plant protection. The bioefficacy of long-lasting insecticidal nets (LLINs) currently distributed in the country was also assessed to delimitate the impact of the insecticide resistance intensity on the effectiveness of those nets. Methods: Three- to five-day-old adult mosquitoes that emerged from collected larvae from Opeibea, Accra (Ghana), were assayed using CDC bottle and WHO tube intensity assays against different insecticides. The Vgsc-L1014F and ace-1 mutations within the population were also characterized using PCR methods. Furthermore, cone bioassays against different types of LLINs were conducted to evaluate the extent and impact of the resistance of An. gambiae (s.l.) from Opeibea. Results: Anopheles gambiae (s.l.) from Opeibea were resistant to all the insecticides tested with very low mortality observed against organochlorine, carbamates and pyrethroid insecticides using WHO susceptibility tests at diagnostic doses during three consecutive years of monitoring. The average frequencies of Vgsc-1014F and ace-1 in the An. gambiae (s.l.) population tested were 0.99 and 0.76, respectively. The intensity assays using both CDC bottle and WHO tubes showed high resistance intensity to pyrethroids and carbamates with survivals at 10× the diagnostic doses of the insecticides tested. Only pirimiphos methyl recorded a low resistance intensity with 100% mortality at 5× the diagnostic dose. The bioefficacy of pyrethroid LLINs ranged from 2.2 to 16.2% mortality while the PBO LLIN, PermaNet® 3.0, was 73%. Conclusions: WHO susceptibility tests using the diagnostic doses described the susceptibility status of the mosquito colony while CDC bottle and WHO tube intensity assays showed varying degrees of resistance intensity. Although both methods are not directly comparable, the indication of the resistance intensity showed the alarming insecticide resistance intensity in Opeibea and its surroundings, which could have an operational impact on the efficacy of vector control tools and particularly on pyrethroid LLINs. [ABSTRACT FROM AUTHOR]

Published

2019

19. The Role of Detoxification Enzymes in the Adaptation of the Major Malaria Vector Anopheles gambiae (Giles; Diptera: Culicidae) to Polluted Water

Author

King, Sandra A., Onayifeke, Bibian, Akorli, Jewelna, Sibomana, Isaie, Chabi, Joseph, Manful-Gwira, Theresa, Dadzie, Samuel, Suzuki, Takashi, Wilson, Michael D., Boakye, Daniel A., and Souza, Dziedzom K. de

Published

2017

20. Metabolic and Target-Site Mechanisms Combine to Confer Strong DDT Resistance in Anopheles gambiae.

Author

Mitchell, Sara N., Rigden, Daniel J., Dowd, Andrew J., Lu, Fang, Wilding, Craig S., Weetman, David, Dadzie, Samuel, Jenkins, Adam M., Regna, Kimberly, Boko, Pelagie, Djogbenou, Luc, Muskavitch, Marc A. T., Ranson, Hilary, Paine, Mark J. I., Mayans, Olga, and Donnelly, Martin J.

Subjects

*DDT (Insecticide), *ANOPHELES gambiae, *METABOLIC detoxification, *GENETIC polymorphisms, *RECOMBINANT proteins, *X-ray crystallography

Abstract

The development of resistance to insecticides has become a classic exemplar of evolution occurring within human time scales. In this study we demonstrate how resistance to DDT in the major African malaria vector Anopheles gambiae is a result of both target-site resistance mechanisms that have introgressed between incipient species (the M- and S-molecular forms) and allelic variants in a DDT-detoxifying enzyme. Sequencing of the detoxification enzyme, Gste2, from DDT resistant and susceptible strains of An. gambiae, revealed a non-synonymous polymorphism (I114T), proximal to the DDT binding domain, which segregated with strain phenotype. Recombinant protein expression and DDT metabolism analysis revealed that the proteins from the susceptible strain lost activity at higher DDT concentrations, characteristic of substrate inhibition. The effect of I114T on GSTE2 protein structure was explored through X-ray crystallography. The amino acid exchange in the DDT-resistant strain introduced a hydroxyl group nearby the hydrophobic DDT-binding region. The exchange does not result in structural alterations but is predicted to facilitate local dynamics and enzyme activity. Expression of both wild-type and 114T alleles the allele in Drosophila conferred an increase in DDT tolerance. The 114T mutation was significantly associated with DDT resistance in wild caught M-form populations and acts in concert with target-site mutations in the voltage gated sodium channel (Vgsc-1575Y and Vgsc-1014F) to confer extreme levels of DDT resistance in wild caught An. gambiae. [ABSTRACT FROM AUTHOR]

Published

2014