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The relationship between the Plasmodium falciparum parasite ratio in childhood and climate estimates of malaria transmission in Kenya

Abstract:
Background: Plasmodium falciparum morbid and fatal risks are considerably higher in areas supporting parasite prevalence ≥ 25%, when compared with low transmission areas supporting parasite prevalence below 25%. Recent descriptions of the health impacts of malaria in Africa are based upon categorical descriptions of a climate-driven fuzzy model of suitability (FCS) for stable transmission developed by the Mapping Malaria Risk in Africa collaboration (MARA). Methods: An electronic and national search was undertaken to identify community-based parasite prevalence surveys in Kenya. Data from these surveys were matched using ArcView 3.2 to extract spatially congruent estimates of the FCS values generated by the MARA model. Levels of agreement between three classes used during recent continental burden estimations of parasite prevalence (0%, >0 - < 25% and ≥ 25%) and three classes of FCS (0, > 0 - < 0.75 and ≥ 0.75) were tested using the kappa (k) statistic and examined as continuous variables to define better levels of agreement. Results: Two hundred and seventeen independent parasite prevalence surveys undertaken since 1980 were identified during the search. Overall agreement between the three classes of parasite prevalence and FCS was weak although significant (k = 0.367, p < 0.0001). The overall correlation between the FCS and the parasite ratio when considered as continuous variables was also positive (0.364, p < 0.001). The margins of error were in the stable, endemic (parasite ratio ≥ 25%) class with 42% of surveys represented by an FCS < 0.75. Reducing the FCS value criterion to ≥ 0.6 improved the classification of stable, endemic parasite ratio surveys. Zero values of FCS were not adequate discriminators of zero parasite prevalence. Conclusion: Using the MARA model to categorically distinguish populations at differing intensities of malaria transmission in Kenya may under-represent those who are exposed to stable, endemic transmission and over-represent those at no risk. The MARA approach to defining FCS values of suitability for stable transmission represents our only contemporary continental level map of malaria in Africa but there is a need to redefine Africa's population at risk in accordance with both climatic and non-climatic determinants of P. falciparum transmission intensity to provide a more informed approach to estimating the morbid and fatal consequences of infection across the continent.
Publication status:
Published
Peer review status:
Peer reviewed

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Publisher copy:
10.1186/1475-2875-3-17

Authors

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Institution:
"KEMRI/ Wellcome Trust Research Laboratories, Nairobi, Kenya", "University of Oxford"
Research group:
TALA Research Group
Department:
Mathematical,Physical & Life Sciences Division - Zoology
Role:
Author
More by this author
Institution:
"University of Oxford", "KEMRI/ Wellcome Trust Research Laboratories, Nairobi, Kenya"
Research group:
TALA Research Group
Department:
Public Health Group
Role:
Author
More by this author
Institution:
University of Oxford
Division:
MPLS
Department:
Zoology
Research group:
TALA Research Group
Role:
Author
More by this author
Institution:
"KEMRI/ Wellcome Trust Research Laboratories, Nairobi, Kenya" "University of Oxford"
Department:
Medical Sciences Division - Clinical Vaccinology and Tropical Medicine,Centre for (CCVTM)
Role:
Author


Publisher:
BioMed Central
Journal:
Malaria Journal More from this journal
Volume:
3
Article number:
17
Publication date:
2004-06-01
Edition:
Publisher's version
DOI:
ISSN:
1475-2875


Language:
English
Keywords:
Subjects:
UUID:
uuid:35b4aaa5-3291-4df7-b6f6-e3933be0fb7c
Local pid:
ora:2410
Deposit date:
2008-10-29
ARK identifier:

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