Conflict of interest: use of pyrethroids and amidines against tsetse and ticks in zoonotic sleeping sickness endemic areas of Uganda
详细信息 查看全文
- 作者:Kevin Bardosh (6)
Charles Waiswa (7)
Susan C Welburn (8) - 关键词:Sleeping sickness ; Trypanosomiasis ; Tsetse ; Insecticide ; Veterinary drugs ; Community ; based disease control ; Uganda
- 刊名:Parasites & Vectors
- 出版年:2013
- 出版时间:December 2013
- 年:2013
- 卷:6
- 期:1
- 全文大小:355KB
- 参考文献:1. Swallow B: / Impacts of Trypanosomiasis on African Agriculture. Rome: Food and Agriculture Organisation; 2000.
2. Kristjanson P, Swallow B, Rowlands G, Kruska R, deLeeuw P: Measuring the costs of African animal trypanosomiasis, the potential benefits of control and returns to research. / Agric Syst 1999, 59:79-8. CrossRef
3. Shaw A: Economics of African Trypanosomiasis. In / The Trypanosomiases. Edited by: Maudlin I, Holmes P, Miles M. Cambridge: CABI Publishing; 2004:369-02. CrossRef
4. Fèvre E, Picozzi K, Jannin J, Welburn S, Maudlin I: Human African Trypanosomiasis: epidemiology and control. / Adv Parasitol 2006, 61:167-21. CrossRef
5. Odiit M, Coleman P, Liu W, McDermott J, Fèvre E, / et al.: Quantifying the level of under-detection of Trypanosoma brucei rhodesiense sleeping sickness cases. / Trop Med Int Health 2005, 10:840-49. CrossRef
6. Odiit M, Shaw A, Welburn S, Fevre E, Coleman P, / et al.: Assessing the pattern of health-seeking behaviour and awareness among sleeping sickness patients in eastern Uganda. / Ann Trop Med Parasitol 2004, 98:339-48. CrossRef
7. Matemba LE, Fèvre EM, Kibona SN, Picozzi K, Cleaveland S, / et al.: Quantifying the burden of rhodesiense sleeping sickness in Urambo District, Tanzania. / PLoS Negl Trop Dis 2010, 4:11. CrossRef
8. Fèvre EM, Wissmann BV, Welburn SC, Lutumba P: The burden of human African Trypanosomiasis. / PLoS Negl Trop Dis 2008, 2:12. CrossRef
9. Lutumba P, Makieya E, Shaw A, Meheus F, Boelaert M: Human African trypanosomiasis in a rural community, Democratic Republic of Congo. / Emerg Infect Dis 2007, 13:248-54. CrossRef
10. Maudlin I: African trypanosomiasis. / Ann Trop Med Parasitol 2006,100(8):679-01. CrossRef
11. Simarro PP, Diarra A, Ruiz Postigo JA, Franco JR, Jannin JG: The Human African Trypanosomiasis Control and Surveillance Programme of the World Health Organization 2000-009: the way forward. / PLoS Negl Trop Dis 2011, 5:2. CrossRef
12. Simarro PP, Cecchi G, Paone M, Franco JR, / et al.: The Atlas of human African trypanosomiasis: a contribution to global mapping of neglected tropical diseases. / Int J Health Geogr 2010, 9:57. CrossRef
13. Ministry of Agriculture: / Animal Industry and Fisheries, Uganda; Uganda Bureau of Statistics; Food and Agriculture; Organization of the United Nations; International Livestock Research Institute; and World Resources Institute: Mapping a Better Future: Spatial Analysis and Pro-Poor Livestock Strategies in Uganda . Washington, DC and Kampala: World Resources Institute; 2010.
14. Fèvre EM, Coleman PG, Welburn SC, Maudlin I: Reanalyzing the 1900-920 sleeping sickness epidemic in Uganda. / Emerg Infect Dis 2004, 10:567-73. CrossRef
15. Welburn S, Coleman P, Maudlin I, Fevre E, Odiit M, / et al.: Crisis, what crisis? Control of Rhodesian sleeping sickness. / Trends Parasitol 2006, 22:123-28. CrossRef
16. Batchelor N, Atkinson PM, Gething PW, Picozzi K, Fèvre E, Kakembo A, Welburn S: Spatial predictions of Human African Trypanosomiasis prevalence in Kaberamaido and Dokolo, two newly affected districts of Uganda. / PLoS Negl Trop Dis 2009, 3:12. CrossRef
17. Hoppe K: / Lords of the fly: sleeping sickness control in British East Africa, 1900-960. Praeger: Connecticut and London; 2003.
18. Hide G: History of sleeping sickness in East Africa. / Clin Microbiol Rev 1999, 12:112-25.
19. Hide G, Tait A, Maudlin I, Welburn SC: The origins, dynamics and generation of Trypanosoma brucei rhodesiense epidemics in East Africa. / Parasitol Today 1996, 12:50-5. CrossRef
20. Fèvre E, Coleman P, Odiit M, Magona J, Welburn S, / et al.: The origins of a new Trypanosoma brucei rhodesiense sleeping sickness outbreak in eastern Uganda. / Lancet 2001, 358:625-28. CrossRef
21. Fèvre E, Picozzi K, Fyfe J, Waiswa C, Odiit M, / et al.: A burgeoning epidemic of sleeping sickness in Uganda. / Lancet 2005, 366:745-47. CrossRef
22. Picozzi K, Fevre E, Odiit M, Carrington M, Eisler M, / et al.: Sleeping sickness in Uganda: a thin line between two fatal diseases. / BMJ 2005, 331:1238-241. CrossRef
23. Selby R: / Limiting the northerly advance of Trypanosoma brucei rhodesiense in post conflict Uganda. PhD thesis: University of Edinburgh; 2011.
24. Hargrove J, Omolo S, Msalilwa J, Fox B: Insecticide-treated cattle for tsetse control: the power and the problems. / Med Vet Entomol 2000, 14:123-30. CrossRef
25. Hargrove J: / Tsetse eradication: sufficiency, necessity and desirability. Edinburgh: DFID Animal Health Programme; 2003. http://r4d.dfid.gov.uk/PDF/Outputs/RLAHtsetse_Erad.pdf
26. Hargrove J, Torr S, Kindness H: Insecticide-treated cattle against tsetse (Diptera: Glossinidae): what governs success? / Bull Ent Res 2003, 93:203-17.
27. Torr S, Maudlin I, Vale G: Less is more: restricted application of insecticide to cattle to improve the cost and efficacy of tsetse control. / Med Vet Entomol 2007, 21:53-4. CrossRef
28. Bourn D, Grant I, Shaw A, Torr S: Cheap and safe tsetse control for livestock production and mixed farming in Africa. / Asp Appl Biol 2005, 75:1-2.
29. / Stamp Out Sleeping Sickness. http://www.stampoutsleepingsickness.com/
30. Morton J: / The innovation trajectory of sleeping sickness control in Uganda. Research knowledge in its context; http://www.researchintouse.com/resources/riu10discuss08ssickcntrl-ug.pdf
31. Bardosh K: / The use of private veterinarians in tsetse and trypanosomiasis control: The Stamp Out Sleeping Sickness Campaign in Northern Uganda. MSC thesis: University of Edinburgh; 2010.
32. Fyfe J: / The impact and outcomes of recent control interventions against trypanosomiasis in eastern Uganda. PhD thesis: University of Edinburgh; 2007.
33. Hargrove JW, Ouifki R, Kajunguri D, Vale GA, Torr SJ: Modelling the Control of Trypanosomiasis Using Trypanocides or Insecticide-Treated Livestock. / PLoS Negl Trop Dis 2012, 6:5. CrossRef
34. Shaw A, Torr S, Waiswa C, Cecchi G, Wint GR, / et al.: Estimating the costs of tsetse control options: an example for Uganda. / Prev Vet Med 2013, 110:290-03. CrossRef
35. Bett B, Machila N, Gathura P, McDermott J, Eisler M: Characteristics of shops selling veterinary medicines in a tsetse-infested area of Kenya. / Prev Vet Med 2004, 63:29-8. CrossRef
36. Mugabi K, Mugisha A, Ocaido O: Socio-economic factors influencing the use of acaricides on livestock: a case study of the pastoralist communities of Nakasongola District, Central Uganda. / Trop Anim Health Prod 2010, 42:131-36. CrossRef
37. Mugisha A, McLeod A, Percy R: Strategies, effectiveness and rationale of vector-borne disease control in the pastoralist system of South-western Uganda. / Trop Anim Health Prod 2005, 6:479-89. CrossRef
38. Mugisha A, Mcleod A, Percy R: Socio-economic factors influencing control of vector-borne diseases in the pastoralist system of south-western Uganda. / Trop Anim Health Prod 2008, 40:287-97. CrossRef
39. Leonard D: / Africa’s changing markets for health and veterinarian services: the new institutional issues. London: MacMillian Press; 2000.
40. Geerts S, Holmes P, Diall O, Eisler M: African bovine trypanosomiasis: the problem of drug resistance. / Trends Parasitol 2001, 17:25-8. CrossRef
41. / 2012 Statistical Abstract. http://www.ubos.org/onlinefiles/uploads/ubos/pdf%20documents/abstracts/2012%20Statistical%20Abstract.pdf
42. Jones B: / Beyond the state in rural Uganda. Edinburgh: Edinburgh University Press for the International African Institute; 2009:199.
43. Bourgeault I, Dingwall R, de Vries R: / Sage Handbook on Qualitative Health Research. London: Sage Publications; 2010.
44. Padgett D: / Qualitative and Mixed Methods in Public Health. Thousand Oaks, USA: Sage Publications; 2012.
45. Brightwell B, Dransfield B, Maudlin I, Stevenson P, Shaw A: Reality vs. rhetoric- a survey and evaluation of tsetse control in East Africa. / Agriculture and Human Values 2001, 18:219-33. CrossRef
46. Dransfield R, Brightwell R: Community participation in tsetse control: the principles, potential and practice. In / The Trypanosomiases. Edited by: Maudlin I, Holmes P, Miles M. Cambridge: CABI Publishing; 2004:533-46. CrossRef
47. African Development Bank: / Uganda: Creation of sustainable tsetse and trypanosomiasis free areas in East and West Africa: Project completion report. http://www.afdb.org/fileadmin/uploads/afdb/Documents/Project-and-Operations/Uganda%20-%20Creation%20of%20Sustainable%20Tsetse%20and%20Trypanosomiasis%20Free%20Areas%20in%20East%20and%20West%20Africa%20-%20Project%20Completion%20Report%20%28PCR%29.pdf
48. Umali D, Feder G, Haan C: Animal health services: finding the right balance between public and private delivery. / The World Bank Research Observer 1994, 9:71-6. CrossRef
49. Scoones I, Wolmer W: / Livestock, disease, trade and markets: policy choices for the livestock sector in Africa. Sussex: Institute of Development Studies, University of Sussex; ftp://ftp.fao.org/docrep/nonfao/LEAD/af853e/af853e00.pdf
50. Case Study 1: / Reduction of Rhodesian sleeping sickness in Uganda, Development impact bond working group report, 2013, 46-3. Centre for International Development and Social Finance. http://www.socialfinance.org.uk/resources/social-finance/dib-working-group-report-consultation-draft - 作者单位:Kevin Bardosh (6)
Charles Waiswa (7)
Susan C Welburn (8)
6. Centre of African Studies, School of Social and Political Science, College of Humanities and Social Science, The University of Edinburgh, 58 George Square, Edinburgh, EH8 9LD, UK
7. Department of Pharmacy, Clinical and Comparative Studies, School of Veterinary Medicine and Animal Resources, Makerere University, P.O Box 7062, Kampala, Uganda
8. Division of Pathway Medicine and Centre for Infectious Diseases, School of Biomedical Sciences, College of Medicine and Veterinary Medicine, The University of Edinburgh, Chancellor’s Building, 49 Little France Crescent, Edinburgh, EH16 4SB, UK
文摘
Background Caused by trypanosomes and transmitted by tsetse flies, Human African Trypanosomiasis and bovine trypanosomiasis remain endemic across much of rural Uganda where the major reservoir of acute human infection is cattle. Following elimination of trypanosomes by mass trypanocidal treatment, it is crucial that farmers regularly apply pyrethroid-based insecticides to cattle to sustain parasite reductions, which also protect against tick-borne diseases. The private veterinary market is divided between products only effective against ticks (amidines) and those effective against both ticks and tsetse (pyrethroids). This study explored insecticide sales, demand and use in four districts of Uganda where mass cattle treatments have been undertaken by the ‘Stamp Out Sleeping Sickness-programme. Methods A mixed-methods study was undertaken in Dokolo, Kaberamaido, Serere and Soroti districts of Uganda between September 2011 and February 2012. This included: focus groups in 40 villages, a livestock keeper survey (n--95), a veterinary drug shop questionnaire (n--4), participatory methods in six villages and numerous semi-structured interviews. Results Although 70.5% of livestock keepers reportedly used insecticide each month during the rainy season, due to a variety of perceptions and practices nearly half used products only effective against ticks and not tsetse. Between 640 and 740 litres of insecticide were being sold monthly, covering an average of 53.7 cattle/km2. Sales were roughly divided between seven pyrethroid-based products and five products only effective against ticks. In the high-risk HAT district of Kaberamaido, almost double the volume of non-tsetse effective insecticide was being sold. Factors influencing insecticide choice included: disease knowledge, brand recognition, product price, half-life and mode of product action, product availability, and dissemination of information. Stakeholders considered market restriction of non-tsetse effective products the most effective way to increase pyrethroid use. Conclusions Conflicts of interest between veterinary business and vector control were found to constrain sleeping sickness control. While a variety of strategies could increase pyrethroid use, regulation of the insecticide market could effectively double the number of treated cattle with little cost to government, donors or farmers. Such regulation is entirely consistent with the role of the state in a privatised veterinary system and should include a mitigation strategy against the potential development of tick resistance.