Abstract
Historically, open shorelines of Lake Malaŵi were free from schistosome, Schistosoma haematobium, transmission, but this changed in the mid-1980s, possibly as a result of over-fishing reducing density of molluscivore fishes. Very little information is available on schistosome infections among people in lake-shore communities and therefore we decided to summarise data collected from 1998 to 2007. Detailed knowledge of the transmission patterns is essential to design a holistic approach to schistosomiasis control involving the public health, fisheries and tourism sectors. On Nankumba Peninsula, in the southern part of the lake, inhabitants of villages located along the shores of Lake Malaŵi have higher prevalence of S. haematobium infection than those living in inland villages. Overall prevalence (all age classes combined) of urinary schistosomiasis in 1998/1999 ranged from 10.2% to 26.4% in inland villages and from 21.0% to 72.7% in lakeshore villages; for school children prevalence of infection ranged from 15.3% to 57.1% in inland schools and from 56.2% to 94.0% in lakeshore schools. Inhabitants on the islands, Chizumulu and Likoma, also have lower prevalence of infection than those living in lakeshore villages on Nankumba Peninsula. This increased prevalence in lakeshore villages is not necessarily linked to transmission taking place in the lake itself, but could also be due to the presence of more numerous typical inland transmission sites (e.g., streams, ponds) being close to the lake. Temporal data witness of intense transmission in some lakeshore villages with 30–40% of children cleared from infection becoming reinfected 12 months later (also lakeshore village). The level of S. mansoni infection is low in the lakeshore communities. Findings are discussed in relation to fishing in the lake.
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Acknowledgments
We are grateful to all the people who assisted in the field work. Also we would like to thank various institutions with the Government of Malawi for assistance and facilitation of the project. The BCP studies were supported by the Danish International Development Assistance, the Danish Bilharziasis Laboratory and the GoM/Danida/DBL Bilharzia Control Project in Malawi and the other studies by the NSF/NIH joint programme in ecology of infectious diseases (DEB-0224958).
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Madsen, H., Bloch, P., Makaula, P. et al. Schistosomiasis in Lake Malaŵi Villages. EcoHealth 8, 163–176 (2011). https://doi.org/10.1007/s10393-011-0687-9
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DOI: https://doi.org/10.1007/s10393-011-0687-9