BMC Infectious Diseases (Mar 2012)

Marked variation in MSP-1<sub>19 </sub>antibody responses to malaria in western Kenyan highlands

  • Badu Kingsley,
  • Afrane Yaw,
  • Larbi John,
  • Stewart Virginia,
  • Waitumbi John,
  • Angov Evelina,
  • Ong'echa John M,
  • Perkins Douglas J,
  • Zhou Guofa,
  • Githeko Andrew,
  • Yan Guiyun

DOI
https://doi.org/10.1186/1471-2334-12-50
Journal volume & issue
Vol. 12, no. 1
p. 50

Abstract

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Abstract Background Assessment of malaria endemicity at different altitudes and transmission intensities, in the era of dwindling vector densities in the highlands, will provide valuable information for malaria control and surveillance. Measurement of serum anti-malarial antibodies is a useful marker of malaria exposure that indicates long-term transmission potential. We studied the serologic evidence of malaria endemicity at two highland sites along a transmission intensity cline. An improved understanding of the micro-geographic variation in malaria exposure in the highland ecosystems will be relevant in planning effective malaria control. Methods Total IgG levels to Plasmodium falciparum MSP-119 were measured in an age-stratified cohort (19 seroprevalence data was fitted to a simple reversible catalytic model to investigate the relationship between parasite exposure and age. Results Higher MSP-119 seroprevalence and density were observed in the valley residents than in the uphill dwellers. Adults (> 15 years) recorded high and stable immune response in spite of changing seasons. Lower responses were observed in children (≤ 15 years), which, fluctuated with changing seasons particularly in the valley residents. In the uphill population, annual seroconversion rate (SCR) was 8.3% and reversion rate was 3.0%, with seroprevalence reaching a plateau of 73.3% by age of 20. Contrary, in the valley bottom population, the annual SCR was 35.8% and the annual seroreversion rate was 3.5%, and seroprevalence in the population had reached 91.2% by age 10. Conclusion The study reveals the micro-geographic variation in malaria endemicity in the highland eco-system; this validates the usefulness of sero-epidemiological tools in assessing malaria endemicity in the era of decreasing sensitivity of conventional tools.