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Infectious Diseases of Poverty

, 6:18

First Online: 06 March 2017Received: 29 May 2016Accepted: 20 December 2016DOI: 10.1186-s40249-016-0225-7

Cite this article as: Yoshioka, K., Tercero, D., Pérez, B. et al. Infect Dis Poverty 2017 6: 18. doi:10.1186-s40249-016-0225-7

Abstract

BackgroundChagas disease is one of the neglected tropical diseases NTDs. International goals for its control involve elimination of vector-borne transmission. Central American countries face challenges in establishing sustainable vector control programmes, since the main vector, Triatoma dimidiata, cannot be eliminated. In 2012, the Ministry of Health in Nicaragua started a field test of a vector surveillance-response system to control domestic vector infestation. This paper reports the main findings from this pilot study.

MethodsThis study was carried out from 2012 to 2015 in the Municipality of Totogalpa. The Japan International Cooperation Agency provided technical cooperation in designing and monitoring the surveillance-response system until 2014. This system involved 1 vector reports by householders to health facilities, 2 data analysis and planning of responses at the municipal health centre and 3 house visits or insecticide spraying by health personnel as a response. We registered all vector reports and responses in a digital database. The collected data were used to describe and analyse the system performance in terms of amount of vector reports as well as rates and timeliness of responses.

ResultsDuring the study period, T. dimidiata was reported 396 times. Spatiotemporal analysis identified some high-risk clusters. All houses reported to be infested were visited by health personnel in 2013 and this response rate dropped to 39% in 2015. Rates of insecticide spraying rose above 80% in 2013 but no spraying was carried out in the following 2 years. The timeliness of house visits improved significantly after the responsibility was transferred from a vector control technician to primary health care staff.

ConclusionsWe argue that the proposed vector surveillance-response system is workable within the resource-constrained health system in Nicaragua. Integration to the primary health care services was a key to improve the system performance. Continual efforts are necessary to keep adapting the surveillance-response system to the dynamic health systems. We also discuss that the goal of eliminating vector-borne transmission remains unachievable. This paper provides lessons not only for Chagas disease control in Central America, but also for control efforts for other NTDs that need a sustainable surveillance-response system to support elimination.

KeywordsChagas disease Triatoma dimidiata Vector control Surveillance-response system Programme integration Nicaragua AbbreviationsJICAJapan International Cooperation Agency

MoHMinistry of health

MOSAFCModelo de Salud Familiar y Comunitario Family and Community Health Model

NTDsNeglected tropical diseases

PAHOPan American Health Organization

PHCPrimary health care

VCTVector control technician

WHOWorld Health Organization.

Electronic supplementary materialThe online version of this article doi:10.1186-s40249-016-0225-7 contains supplementary material, which is available to authorized users.

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Author: Kota Yoshioka - Doribel Tercero - Byron Pérez - Jiro Nakamura - Lenin Pérez

Source: https://link.springer.com/







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