publication . Article . Other literature type . 2018

Putting evolution in elimination: Winning our ongoing battle with evolving malaria mosquitoes and parasites.

Silvie Huijben; Krijn P. Paaijmans;
Open Access
  • Published: 01 Apr 2018
  • Country: Spain
Abstract
Since 2000, the world has made significant progress in reducing malaria morbidity and mortality, and several countries in Africa, South America and South-East Asia are working hard to eliminate the disease. These elimination efforts continue to rely heavily on antimalarial drugs and insecticide-based interventions, which remain the cornerstones of malaria treatment and prevention. However, resistance has emerged against nearly every antimalarial drug and insecticide that is available. In this review we discuss the evolutionary consequences of the way we currently implement antimalarial interventions, which is leading to resistance and may ultimately lead to cont...
Subjects
free text keywords: Review and Syntheses, drug resistance, evolutionary medicine, insecticide resistance, malaria elimination, resistance management strategies, Malària, Mortalitat, Malaria, Mortality, Resistència als medicaments, Evolution, QH359-425, Biotechnology, business.industry, business, South east asia, Malaria morbidity, Psychological intervention, Biology, medicine.disease, medicine, Battle, media_common.quotation_subject, media_common, Development economics
Related Organizations
160 references, page 1 of 11

Abdul‐Ghani, R., Mahdy, M. A. K., Beier, J. C., & Basco, L. K. (2017). Hidden reservoir of resistant parasites: the missing link in the elimination of falciparum malaria. Infectious Diseases of Poverty, 6(1), 12 https://doi.org/10.1186/s40249-016-0227-5 28166813 [OpenAIRE] [PubMed]

Adamo, S. A., & Webster, J. P. (2013). Neural parasitology: How parasites manipulate host behaviour. Journal of Experimental Biology, 216, 1–2.23225860 [PubMed]

Alout, H., Dabiré, R. K., Djogbénou, L., Abate, L., Corbel, V., Chandre, F., & Cohuet, A. (2016). Interactive cost of Plasmodium infection and insecticide resistance in the malaria vector Anopheles gambiae . Scientific Reports, 6, 29755 https://doi.org/10.1038/srep29755 27432257 [OpenAIRE] [PubMed]

Alout, H., Ndam, N. T., Sandeu, M. M., Djégbe, I., Chandre, F., Dabiré, R. K., … Cohuet, A. (2013). Insecticide resistance alleles affect vector competence of Anopheles gambiae s.s. for Plasmodium falciparum field isolates. PLoS ONE, 8(5), e63849 https://doi.org/10.1371/journal.pone.0063849 23704944 [OpenAIRE] [PubMed]

Alout, H., Yameogo, B., Djogbenou, L. S., Chandre, F., Dabire, R. K., Corbel, V., & Cohuet, A. (2014). Interplay between plasmodium infection and resistance to insecticides in vector mosquitoes. Journal of Infectious Diseases, 210(9), 1464–1470. https://doi.org/10.1093/infdis/jiu276 24829465 [PubMed]

Antao, T., & Hastings, I. (2012). Policy options for deploying anti‐malarial drugs in endemic countries: A population genetics approach. Malaria Journal, 11, 422 https://doi.org/10.1186/1475-2875-11-422 23244624 [OpenAIRE] [PubMed]

Artimovich, E., Schneider, K., Taylor, T. E., Kublin, J. G., Dzinjalamala, F. K., Escalante, A. A., … Takala‐Harrison, S. (2015). Persistence of sulfadoxine‐pyrimethamine resistance despite reduction of drug pressure in Malawi. Journal of Infectious Diseases, 212, 694–701. https://doi.org/10.1093/infdis/jiv078 25672905 [OpenAIRE] [PubMed]

Bagi, J., Grisales, N., Corkill, R., Morgan, J. C., N'Falé, S., Brogdon, W. G., … Brooke, B. (2015). When a discriminating dose assay is not enough: Measuring the intensity of insecticide resistance in malaria vectors. Malaria Journal, 14, 210 https://doi.org/10.1186/s12936-015-0721-4 25985896 [OpenAIRE] [PubMed]

Barclay, V. C., Sim, D., Chan, B. H. K., Nell, L. A., Rabaa, M. A., Bell, A. S., … Read, A. F. (2012). The evolutionary consequences of blood‐stage vaccination on the rodent malaria Plasmodium chabaudi . PLoS Biology, 10(7), e1001368 https://doi.org/10.1371/journal.pbio.1001368 22870063 [OpenAIRE] [PubMed]

Barnes, K. G., Weedall, G. D., Ndula, M., Irving, H., Mzihalowa, T., Hemingway, J., & Wondji, C. S. (2017). Genomic footprints of selective sweeps from metabolic resistance to pyrethroids in African malaria vectors are driven by scale up of insecticide‐based vector control. PLoS Genetics, 13(2), e1006539 https://doi.org/10.1371/journal.pgen.1006539 28151952 [OpenAIRE] [PubMed]

Bayoh, M. N., Walker, E. D., Kosgei, J., Ombok, M., Olang, G. B., Githeko, A. K., … Gimnig, J. E. (2014). Persistently hig h estimates of late night, indoor exposure to malaria vectors despite high coverage of insecticide treated nets. Parasites and Vectors, 7, 380 https://doi.org/10.1186/1756-3305-7-380 25141761 [OpenAIRE] [PubMed]

de Bekker, C., Quevillon, L. E., Smith, P. B., Fleming, K. R., Ghosh, D., Patterson, A. D., & Hughes, D. P. (2014). Species‐specific ant brain manipulation by a specialized fungal parasite. BMC Evolutionary Biology, 14, 166 https://doi.org/10.1186/s12862-014-0166-3 25085339 [OpenAIRE] [PubMed]

van den Berg, H., Zaim, M., Yadav, R. S., Soares, A., Ameneshewa, B., Mnzava, A., … Ejov, M. (2012). Global trends in the use of insecticides to control vector‐borne diseases. Environmental Health Perspectives, 120(4), 577–582. https://doi.org/10.1289/ehp.1104340 22251458 [OpenAIRE] [PubMed]

Bhatt, S., Weiss, D. J., Cameron, E., Bisanzio, D., Mappin, B., Dalrymple, U., … Gething, P. W. (2015). The effect of malaria control on Plasmodium falciparum in Africa between 2000 and 2015. Nature, 526(7572), 207–211. https://doi.org/10.1038/nature15535 26375008 [OpenAIRE] [PubMed]

Bian, G., Joshi, D., Dong, Y., Lu, P., Zhou, G., Pan, X., … Xi, Z. (2013). Wolbachia invades Anopheles stephensi populations and induces refractoriness to Plasmodium infection. Science, 340(6133), 748–751. https://doi.org/10.1126/science.1236192 23661760 [OpenAIRE] [PubMed]

160 references, page 1 of 11
Abstract
Since 2000, the world has made significant progress in reducing malaria morbidity and mortality, and several countries in Africa, South America and South-East Asia are working hard to eliminate the disease. These elimination efforts continue to rely heavily on antimalarial drugs and insecticide-based interventions, which remain the cornerstones of malaria treatment and prevention. However, resistance has emerged against nearly every antimalarial drug and insecticide that is available. In this review we discuss the evolutionary consequences of the way we currently implement antimalarial interventions, which is leading to resistance and may ultimately lead to cont...
Subjects
free text keywords: Review and Syntheses, drug resistance, evolutionary medicine, insecticide resistance, malaria elimination, resistance management strategies, Malària, Mortalitat, Malaria, Mortality, Resistència als medicaments, Evolution, QH359-425, Biotechnology, business.industry, business, South east asia, Malaria morbidity, Psychological intervention, Biology, medicine.disease, medicine, Battle, media_common.quotation_subject, media_common, Development economics
Related Organizations
160 references, page 1 of 11

Abdul‐Ghani, R., Mahdy, M. A. K., Beier, J. C., & Basco, L. K. (2017). Hidden reservoir of resistant parasites: the missing link in the elimination of falciparum malaria. Infectious Diseases of Poverty, 6(1), 12 https://doi.org/10.1186/s40249-016-0227-5 28166813 [OpenAIRE] [PubMed]

Adamo, S. A., & Webster, J. P. (2013). Neural parasitology: How parasites manipulate host behaviour. Journal of Experimental Biology, 216, 1–2.23225860 [PubMed]

Alout, H., Dabiré, R. K., Djogbénou, L., Abate, L., Corbel, V., Chandre, F., & Cohuet, A. (2016). Interactive cost of Plasmodium infection and insecticide resistance in the malaria vector Anopheles gambiae . Scientific Reports, 6, 29755 https://doi.org/10.1038/srep29755 27432257 [OpenAIRE] [PubMed]

Alout, H., Ndam, N. T., Sandeu, M. M., Djégbe, I., Chandre, F., Dabiré, R. K., … Cohuet, A. (2013). Insecticide resistance alleles affect vector competence of Anopheles gambiae s.s. for Plasmodium falciparum field isolates. PLoS ONE, 8(5), e63849 https://doi.org/10.1371/journal.pone.0063849 23704944 [OpenAIRE] [PubMed]

Alout, H., Yameogo, B., Djogbenou, L. S., Chandre, F., Dabire, R. K., Corbel, V., & Cohuet, A. (2014). Interplay between plasmodium infection and resistance to insecticides in vector mosquitoes. Journal of Infectious Diseases, 210(9), 1464–1470. https://doi.org/10.1093/infdis/jiu276 24829465 [PubMed]

Antao, T., & Hastings, I. (2012). Policy options for deploying anti‐malarial drugs in endemic countries: A population genetics approach. Malaria Journal, 11, 422 https://doi.org/10.1186/1475-2875-11-422 23244624 [OpenAIRE] [PubMed]

Artimovich, E., Schneider, K., Taylor, T. E., Kublin, J. G., Dzinjalamala, F. K., Escalante, A. A., … Takala‐Harrison, S. (2015). Persistence of sulfadoxine‐pyrimethamine resistance despite reduction of drug pressure in Malawi. Journal of Infectious Diseases, 212, 694–701. https://doi.org/10.1093/infdis/jiv078 25672905 [OpenAIRE] [PubMed]

Bagi, J., Grisales, N., Corkill, R., Morgan, J. C., N'Falé, S., Brogdon, W. G., … Brooke, B. (2015). When a discriminating dose assay is not enough: Measuring the intensity of insecticide resistance in malaria vectors. Malaria Journal, 14, 210 https://doi.org/10.1186/s12936-015-0721-4 25985896 [OpenAIRE] [PubMed]

Barclay, V. C., Sim, D., Chan, B. H. K., Nell, L. A., Rabaa, M. A., Bell, A. S., … Read, A. F. (2012). The evolutionary consequences of blood‐stage vaccination on the rodent malaria Plasmodium chabaudi . PLoS Biology, 10(7), e1001368 https://doi.org/10.1371/journal.pbio.1001368 22870063 [OpenAIRE] [PubMed]

Barnes, K. G., Weedall, G. D., Ndula, M., Irving, H., Mzihalowa, T., Hemingway, J., & Wondji, C. S. (2017). Genomic footprints of selective sweeps from metabolic resistance to pyrethroids in African malaria vectors are driven by scale up of insecticide‐based vector control. PLoS Genetics, 13(2), e1006539 https://doi.org/10.1371/journal.pgen.1006539 28151952 [OpenAIRE] [PubMed]

Bayoh, M. N., Walker, E. D., Kosgei, J., Ombok, M., Olang, G. B., Githeko, A. K., … Gimnig, J. E. (2014). Persistently hig h estimates of late night, indoor exposure to malaria vectors despite high coverage of insecticide treated nets. Parasites and Vectors, 7, 380 https://doi.org/10.1186/1756-3305-7-380 25141761 [OpenAIRE] [PubMed]

de Bekker, C., Quevillon, L. E., Smith, P. B., Fleming, K. R., Ghosh, D., Patterson, A. D., & Hughes, D. P. (2014). Species‐specific ant brain manipulation by a specialized fungal parasite. BMC Evolutionary Biology, 14, 166 https://doi.org/10.1186/s12862-014-0166-3 25085339 [OpenAIRE] [PubMed]

van den Berg, H., Zaim, M., Yadav, R. S., Soares, A., Ameneshewa, B., Mnzava, A., … Ejov, M. (2012). Global trends in the use of insecticides to control vector‐borne diseases. Environmental Health Perspectives, 120(4), 577–582. https://doi.org/10.1289/ehp.1104340 22251458 [OpenAIRE] [PubMed]

Bhatt, S., Weiss, D. J., Cameron, E., Bisanzio, D., Mappin, B., Dalrymple, U., … Gething, P. W. (2015). The effect of malaria control on Plasmodium falciparum in Africa between 2000 and 2015. Nature, 526(7572), 207–211. https://doi.org/10.1038/nature15535 26375008 [OpenAIRE] [PubMed]

Bian, G., Joshi, D., Dong, Y., Lu, P., Zhou, G., Pan, X., … Xi, Z. (2013). Wolbachia invades Anopheles stephensi populations and induces refractoriness to Plasmodium infection. Science, 340(6133), 748–751. https://doi.org/10.1126/science.1236192 23661760 [OpenAIRE] [PubMed]

160 references, page 1 of 11
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