Harnessing Integrated Vector Management for Enhanced Disease Prevention

Trends in Parasitology

Volumn 33, Issue 1, 2017, Pages 30-41

  Chanda, Emmanuel ^a   Ameneshewa, Birkinesh ^b   Bagayoko, Magaran ^b   Govere, John M ^c   Macdonald, Michael B ^d  

^a Vector Control Specialist Consultant Zambia   (Zambia)

^b WORLD HEALTH ORGANIZATION   (Switzerland)

^c Vector Control Specialist Consultant   (South Africa)

^d Vector Control Specialist Consultant   (United States)

Author keywords

capacity building; integrated vector management; operational impact; stakeholder collaboration; vector borne diseases; vector control

Indexed keywords

AFRICA SOUTH OF THE SAHARA; COMMUNITY PARTICIPATION; HEALTH CARE POLICY; HEALTH PROMOTION; HUMAN; INFECTION PREVENTION; INSECTICIDE RESISTANCE; INTEGRATED VECTOR MANAGEMENT; NONHUMAN; PARASITE TRANSMISSION; PARASITE VECTOR; PARASITOSIS; PRACTICE GUIDELINE; PROTOCOL COMPLIANCE; REVIEW; SENSITIZATION; VECTOR CONTROL; ANIMAL; ARTHROPOD VECTOR; COMMUNICABLE DISEASES, EMERGING; INSECT CONTROL; LEGISLATION AND JURISPRUDENCE; PARASITIC DISEASES; PHYSIOLOGY; TRANSMISSION; TRENDS; WORLD HEALTH ORGANIZATION; ZOOLOGY;

AFRICA SOUTH OF THE SAHARA; ANIMALS; ARTHROPOD VECTORS; COMMUNICABLE DISEASES, EMERGING; ENTOMOLOGY; HEALTH POLICY; HUMANS; INSECT CONTROL; PARASITIC DISEASES; WORLD HEALTH ORGANIZATION;

EID: 85000869944     PISSN: 14714922     EISSN: 14715007     Source Type: Journal    
DOI: 10.1016/j.pt.2016.09.006     Document Type: Review

References (62)

1. 1 Eisen, L., et al. Multi-disease data management system platform for vector-borne diseases. PLoS Negl. Trop. Dis., 5, 2011, e1016.
2. 2 Townson, H., et al. Exploiting the potential of vector control for disease prevention. Bull. World Health Organ. 83 (2005), 942–947.
3. 3 Rosenberg, R., Threat from emerging vector borne viruses. Emerg. Infect. Dis. 22 (2016), 910–911.
4. 4 Sinka, M.E., et al. A global map of dominant malaria vectors. Parasit. Vectors, 5, 2012, 69.
5. 5 Johansson, M.A., Chikungunya on the move. Trends Parasitol. 31 (2015), 43–45.
6. 6 Beier, J.C., et al. Integrated vector management for malaria control. Malaria J., 7, 2008, S4.
7. 7 Mnzava, A.P., et al. Malaria vector control at crossroads: public health entomology and the drive to elimination. Trans. R. Soc. Trop. Med. Hyg. 108 (2014), 550–554.
8. 8 World Health Organization. Guidance on Policy-Making for Integrated Vector Management. 2012, WHO.
9. 9 World Health Organization. Core Structure for Training Curricula on Integrated Vector Management. 2012, WHO.
10. 10 World Health Organization. Handbook for Integrated Vector Management. 2012, WHO.
11. 11 World Health Organization. Monitoring and Evaluation Indicators for Integrated Vector Management. 2012, WHO.
12. 12 Chanda, E., et al. Consolidating strategic planning and operational frameworks for integrated vector management in Eritrea. Malaria J., 14, 2015, 488.
13. 13 Mutero, C.M., et al. An assessment of participatory integrated vector management for malaria control in Kenya. Environ. Health Perspect. 123 (2015), 1145–1151.
14. 14 Chanda, E., et al. Operational scale entomological intervention for malaria control: strategies, achievements and challenges in Zambia. Malaria J., 12, 2013, 10.
15. 15 Lyaloo, D.P., et al. Guidelines to site selection for population surveillance and mosquito control trials: A case study from Mauritius. Acta Tropica 132S (2014), S140–S149.
16. 16 Tatarsky, A., et al. Preventing the reintroduction of malaria in Mauritius: a programmatic and financial assessment. PLoS ONE, 6, 2011, e23832.
17. 17 Pocquet, N., et al. Insecticide resistance in disease vectors from Mayotte: an opportunity for integrated vector management. Parasit. Vectors, 7, 2014, 299.
18. 18 Mutero, C.M., et al. Integrated vector management for malaria control in Uganda: knowledge, perceptions and policy development. Malaria J., 11, 2012, 21.
19. 19 Okia, M., et al. Consolidating tactical planning and implementation frameworks for integrated vector management in Uganda. Malaria J., 15, 2015, 214.
20. 20 Chanda, E., et al. Integrated vector management: a critical strategy for combating vector-borne diseases in South Sudan. Malaria J., 12, 2013, 369.
21. 21 Chanda, E., et al. Scale up of insecticide treated net distribution programme for malaria vector control: lessons from South Sudan. Bull. World Health Organ. 92 (2014), 290–296.
22. 22 Kell-Hope, L.A., et al. Can malaria vector control accelerate the interruption of lymphatic filariasis transmission in Africa; capturing a window of opportunity?. Parasit. Vectors, 6, 2013, 39.
23. 23 Chanda, E., et al. Preventing malaria transmission by indoor residual spraying in Malawi: grappling with the challenge of uncertain sustainability. Malaria J., 14, 2015, 254.
24. 24 Chanda, E., et al. Scaling up of integrated malaria vector control: lessons from Malawi. Bull. World Health Organ. 94 (2016), 475–480.
25. 25 Abilio, A.P., et al. The emergence of insecticide resistance in central Mozambique and potential threat to the successful indoor residual spraying malaria control programme. Malaria J., 10, 2011, 110.
26. 26 Chanda, E., et al. Strengthening tactical planning and operational frameworks for vector control: the roadmap for malaria elimination in Namibia. Malaria J., 14, 2015, 302.
27. 27 Maheu–Giroux, M., et al. Impact of community-based larviciding on the prevalence of malaria infection in Dar es Salaam, Tanzania. PLoS ONE, 8, 2013, e71638.
28. 28 Chanda, E., et al. Integrated vector management: the Zambian experience. Malaria J., 7, 2008, 164.
29. 29 Naranjo, D.P., et al. Vector control programs in Saint Johns County, Florida and Guayas, Ecuador: successes and barriers to integrated vector management. BMC Public Health, 14, 2014, 674.
30. 30 Golding, N., et al. Integrating vector control across diseases. BMC Med., 13, 2015, 249.
31. 31 Chanda, E., et al. Impact of entomological interventions on malaria vector bionomics in low transmission settings in Zambia. J. Public Health Epidemiol. 4 (2012), 189–196.
32. 32 World Health Organization. World Malaria Report. 2015, WHO, Geneva.
33. 33 Cohen, J.M., et al. Rapid case-based mapping of seasonal malaria transmission risk for strategic elimination planning in Swaziland. Malaria J., 12, 2013, 61.
34. 34 Simon, C., et al. Malaria elimination in Botswana, 2012-2014: achievements and challenges. Parasit. Vectors, 9, 2016, 99.
35. 35 Kamuliwo, M., et al. The changing burden of malaria and association with vector control interventions in Zambia using district-level surveillance data, 2006-2011. Malaria J., 12, 2013, 437.
36. 36 Kanyangarara, M., et al. Reduction in malaria incidence following indoor residual spraying with Actellic 300 CS in a setting with pyrethroid resistance: Mutasa District, Zimbabwe. PLoS ONE, 11, 2016, e0151971.
37. 37 White, T.M., et al. Costs and cost-effectiveness of malaria control interventions – a systematic review. Malaria J., 10, 2011, 337.
38. 38 Maheu-Giroux, M., et al. Cost-effectiveness of larviciding for urban malaria control in Tanzania. Malaria J., 13, 2014, 477.
39. 39 Sipilanyambe-Munyinda, N., et al. Linking environmental exposure with public health: dichlorodiphenyltrichloroethane extracted from soils and water of recently exposed communities of selected locations in Zambia. J. Environ. Pub. Health, 2015, 2015, 8, 10.1155/2015/564189.
40. 40 Najera, J.A., et al. Some lessons for the future from the global malaria eradication programme (1955-1969). PLoS Med., 8, 2011, e1000412.
41. 41 Russell, T.L., et al. Successful malaria elimination strategies require interventions that target changing vector behaviours. Malaria J., 12, 2013, 56.
42. 42 Van den Berg, H., Takken, W., Evaluation of integrated vector management. Trends Parasitol. 25 (2009), 71–76.
43. 43 Rivero, A., et al. Insecticide control of vector-borne diseases: when is insecticide resistance a problem?. PLoS Pathog., 6, 2010, e1001000.
44. 44 Philbert, A., et al. A review of agricultural pesticides use and the selection for resistance to insecticides in malaria vectors. Adv. Entomol. 2 (2014), 120–128.
45. 45 Knox, T.B., et al. An online tool for mapping insecticide resistance in major Anopheles vectors of human malaria parasites and review of resistance status for the Afrotropical region. Parasit. Vectors, 7, 2014, 76.
46. 46 Kelly-Hope, L., et al. Lessons from the past: managing insecticide resistance in malaria control and eradication programs. Lancet Infect. Dis. 8 (2008), 387–389.
47. 47 Hemingway, J., et al. The molecular basis of insecticide resistance in mosquitoes. Insect Biochem. Mol. Biol. 34 (2004), 653–665.
48. 48 Georghiou, G.P., Taylor, C.E., Genetic and biological influences in the evolution of insecticide resistance. J. Econ. Entom. 70 (1977), 319–323.
49. 49 Chanda, E., et al. An operational framework for insecticide resistance management planning. Emerg. Infect. Dis. 22 (2016), 773–779.
50. 50 Durnez, L., Coosemans, M., Residual transmission of malaria: an old issue for new approaches. In Anopheles Mosquitoes – New Insight into Malaria Vectors, chap. 21, 2013, InTech, 671–704.
51. 51 Killeen, G.F., Characterizing, controlling and eliminating residual malaria transmission. Malaria J., 13, 2014, 330.
52. 52 Nnankya, M., Matthews, G., Malaria control, better health, better future. Outl. Pest Manage. 26 (2015), 1–2.
53. 53 Tusting, L.S., et al. The evidence for improving housing to reduce malaria: a systematic review and meta-analysis. Malaria J., 14, 2015, 209.
54. 54 N'guessan, R., et al. Reduced efficacy of insecticide-treated nets and indoor residual spraying for malaria control in pyrethroid resistance area. Benin. Emerg. Infect. Dis., 2007, 199–206.
55. 55 Maharaj, R., et al. Impact of DDT re-introduction on malaria transmission in KwaZulu-Natal. S. Afr. Med. J. 95 (2005), 871–874.
56. 56 Ferguson, H.M., et al. Ecology: a prerequisite for malaria elimination and eradication. PLoS Med., 7, 2010, e1000303.
57. 57 The malERA Consultative Group on Vector Control. A research agenda for malaria eradication: vector control. PLoS Med., 8, 2011, e1000401.
58. 58 Chataway, J., et al. Building the case for systems of health innovation in Africa. Kalua, F., Awotedu, A., Kamwanja, L., Saka, J., (eds.) Science, Technology and Innovation for Public Health in Africa, 2009, New Partnership for Africa's Development (NEPAD), 7–52.
59. 59 Mnzava, A., et al. Implementation of integrated vector management for disease vector control in the Eastern Mediterranean: where are we and where are we going?. Eastern Medit. Health J. 17 (2011), 453–459.
60. 60 van den Berg, H., et al. Operational efficiency and sustainability of vector control of malaria and dengue: descriptive case studies from the Philippines. Malaria J., 11, 2012, 269.
61. 61 World Health Organization. Sustaining the Drive to Overcome the Global Iimpact of Neglected Tropical Diseases. Second WHO Report on Neglected Tropical Diseases., 2013, WHO.
62. 62 Hotez, P.J., Kamath, A., Neglected tropical diseases in sub-Saharan Africa: review of their prevalence, distribution, and disease burden. PLoS Negl. Trop. Dis., 3, 2009, e412.