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Implementing a community vector collection strategy for monitoring vector-borne diseases in Ghana
Author(s) -
Daniel Boakye,
Kwadwo K. Frempong,
Kisito Ogoussan,
Samson Otoo,
Maria Rebollo Polo,
Samuel Dadzie,
Dziedzom K. de Souza
Publication year - 2019
Publication title -
gates open research
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.069
H-Index - 9
ISSN - 2572-4754
DOI - 10.12688/gatesopenres.12933.1
Subject(s) - vector (molecular biology) , data collection , population , biology , socioeconomics , environmental health , medicine , social science , sociology , biochemistry , gene , recombinant dna
Background: Monitoring vector-borne diseases requires sampling of very large numbers of disease vectors in order to corroborate infections in the human population. This can be challenging, as current vector collection tools are either inefficient, or expensive to implement from a public health perspective. To circumvent this challenge, this study compared a community vector collection strategy using a double-netted mosquito collection method (a tent trap (TT)) to the traditional human landing collection (HLC) method in three communities in lymphatic filariasis-endemic districts in Ghana. Methods: Following community entry and sensitization, community volunteers appointed by the community leaders were trained in the mosquito collection and storage methods and provided with supplies for mosquito collection over a 7-month period. They were visited occasionally by the study team to retrieve the mosquito samples for identification. The collectors were also assessed to evaluate their perspectives on using community vector collectors for monitoring vector-borne diseases. Results: The results of the study indicated that the TT method collected significantly more mosquitoes (63%) over the collection period than HLC (37%). Thus, the TTs were observed to be performing relatively better than the HLC ( P <0.001). The collectors knew the importance of mosquitoes in transmitting diseases, could identify the main diseases that were locally transmitted within their communities. They appreciated the involvement of the community in the collection as this enhanced community ownership of the programme as well as providing some financial incentives to those directly involved in the collection. Conclusions: The study revealed that use of community volunteers for the collection of mosquitoes for xenomonitoring purposes can be a viable strategy in the monitoring of vector-borne diseases. However, further development of the strategies and assessments of the costs involved will be required to make this a sustainable approach to monitoring vector-borne disease interventions and enhance community ownership of the programmes.

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