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An exploratory GIS-based method to identify and characterise landscapes with an elevated epidemiological risk of Rhodesian human African trypanosomiasis

An exploratory GIS-based method to identify and characterise landscapes with an elevated epidemiological risk of Rhodesian human African trypanosomiasis
An exploratory GIS-based method to identify and characterise landscapes with an elevated epidemiological risk of Rhodesian human African trypanosomiasis
BACKGROUND: Specific land cover types and activities have been correlated with Trypanosoma brucei rhodesiense distributions, indicating the importance of landscape for epidemiological risk. However, methods proposed to identify specific areas with elevated epidemiological risk (i.e. where transmission is more likely to occur) tend to be costly and time consuming. This paper proposes an exploratory spatial analysis using geo-referenced human African trypanosomiasis (HAT) cases and matched controls from Serere hospital, Uganda (December 1998 to November 2002) to identify areas with an elevated epidemiological risk of HAT.

METHODS: Buffers 3 km from each case and control were used to represent areas in which village inhabitants would carry out their daily activities. It was hypothesised that the selection of areas where several case village buffers overlapped would enable the identification of locations with increased risk of HAT transmission, as these areas were more likely to be frequented by HAT cases in several surrounding villages. The landscape within these overlap areas should more closely relate to the environment in which transmission occurs as opposed to using the full buffer areas. The analysis was carried out for each of four annual periods, for both cases and controls, using a series of threshold values (number of overlapping buffers), including a threshold of one, which represented the benchmark (e.g. use of the full buffer area as opposed to the overlap areas).

RESULTS: A greater proportion of the overlap areas for cases consisted of seasonally flooding grassland and lake fringe swamp, than the control overlap areas, correlating well with the preferred habitat of the predominant tsetse species within the study area (Glossina fuscipes fuscipes). The use of overlap areas also resulted in a greater difference between case and control landscapes, when compared with the benchmark (using the full buffer area).

CONCLUSIONS: These results indicate that the overlap analysis has enabled the selection of areas more likely to represent epidemiological risk zones than similar analyses using full buffer areas. The identification of potential epidemiological risk zones using this method requires fewer data than other proposed methods and further development may provide vital information for the targeting of control measures.
Trypanosoma brucei rhodesiense, tsetse, Glossina fuscipes, GIS, spatial epidemiology, landscape epidemiology, dleeping sickness, disease ecology
1471-2334
316-[14pp]
Wardrop, Nicola A.
8f3a8171-0727-4375-bc68-10e7d616e176
Fèvre, Eric M.
6a168bf3-21be-42c7-b588-7a6b5bad64e5
Atkinson, Peter M.
96e96579-56fe-424d-a21c-17b6eed13b0b
Kakembo, Abbas S.L.
b7deca04-0afd-4866-b5a2-74b4e408eb48
Welburn, Susan C.
e207a726-37ce-480e-b585-0f73b132ea91
Wardrop, Nicola A.
8f3a8171-0727-4375-bc68-10e7d616e176
Fèvre, Eric M.
6a168bf3-21be-42c7-b588-7a6b5bad64e5
Atkinson, Peter M.
96e96579-56fe-424d-a21c-17b6eed13b0b
Kakembo, Abbas S.L.
b7deca04-0afd-4866-b5a2-74b4e408eb48
Welburn, Susan C.
e207a726-37ce-480e-b585-0f73b132ea91

Wardrop, Nicola A., Fèvre, Eric M., Atkinson, Peter M., Kakembo, Abbas S.L. and Welburn, Susan C. (2012) An exploratory GIS-based method to identify and characterise landscapes with an elevated epidemiological risk of Rhodesian human African trypanosomiasis. BMC Infectious Diseases, 12, 316-[14pp]. (doi:10.1186/1471-2334-12-316). (PMID:23171150)

Record type: Article

Abstract

BACKGROUND: Specific land cover types and activities have been correlated with Trypanosoma brucei rhodesiense distributions, indicating the importance of landscape for epidemiological risk. However, methods proposed to identify specific areas with elevated epidemiological risk (i.e. where transmission is more likely to occur) tend to be costly and time consuming. This paper proposes an exploratory spatial analysis using geo-referenced human African trypanosomiasis (HAT) cases and matched controls from Serere hospital, Uganda (December 1998 to November 2002) to identify areas with an elevated epidemiological risk of HAT.

METHODS: Buffers 3 km from each case and control were used to represent areas in which village inhabitants would carry out their daily activities. It was hypothesised that the selection of areas where several case village buffers overlapped would enable the identification of locations with increased risk of HAT transmission, as these areas were more likely to be frequented by HAT cases in several surrounding villages. The landscape within these overlap areas should more closely relate to the environment in which transmission occurs as opposed to using the full buffer areas. The analysis was carried out for each of four annual periods, for both cases and controls, using a series of threshold values (number of overlapping buffers), including a threshold of one, which represented the benchmark (e.g. use of the full buffer area as opposed to the overlap areas).

RESULTS: A greater proportion of the overlap areas for cases consisted of seasonally flooding grassland and lake fringe swamp, than the control overlap areas, correlating well with the preferred habitat of the predominant tsetse species within the study area (Glossina fuscipes fuscipes). The use of overlap areas also resulted in a greater difference between case and control landscapes, when compared with the benchmark (using the full buffer area).

CONCLUSIONS: These results indicate that the overlap analysis has enabled the selection of areas more likely to represent epidemiological risk zones than similar analyses using full buffer areas. The identification of potential epidemiological risk zones using this method requires fewer data than other proposed methods and further development may provide vital information for the targeting of control measures.

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More information

Published date: 21 November 2012
Keywords: Trypanosoma brucei rhodesiense, tsetse, Glossina fuscipes, GIS, spatial epidemiology, landscape epidemiology, dleeping sickness, disease ecology
Organisations: Geography & Environment, PHEW – P (Population Health), PHEW – S (Spatial analysis and modelling)
Learn more about Geography & Environment research

Identifiers

Local EPrints ID: 346342
URI: http://eprints.soton.ac.uk/id/eprint/346342
DOI: doi:10.1186/1471-2334-12-316
ISSN: 1471-2334
PURE UUID: 3bcc4034-756f-4e82-b0e1-4b9f5020cb1f
ORCID for Peter M. Atkinson: ORCID iD orcid.org/0000-0002-5489-6880

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Date deposited: 15 Jan 2013 13:31
Last modified: 15 Mar 2024 02:47

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Contributors

Author: Nicola A. Wardrop
Author: Eric M. Fèvre
Author: Peter M. Atkinson ORCID iD
Author: Abbas S.L. Kakembo
Author: Susan C. Welburn

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