Integrated Mapping of Neglected Tropical Diseases: Epidemiological Findings and Control Implications for Northern Bahr-el-Ghazal State, Southern Sudan

Background There are few detailed data on the geographic distribution of most neglected tropical diseases (NTDs) in post-conflict Southern Sudan. To guide intervention by the recently established national programme for integrated NTD control, we conducted an integrated prevalence survey for schistosomiasis, soil-transmitted helminth (STH) infection, lymphatic filariasis (LF), and loiasis in Northern Bahr-el-Ghazal State. Our aim was to establish which communities require mass drug administration (MDA) with preventive chemotherapy (PCT), rather than to provide precise estimates of infection prevalence. Methods and Findings The integrated survey design used anecdotal reports of LF and proximity to water bodies (for schistosomiasis) to guide selection of survey sites. In total, 86 communities were surveyed for schistosomiasis and STH; 43 of these were also surveyed for LF and loiasis. From these, 4834 urine samples were tested for blood in urine using Hemastix reagent strips, 4438 stool samples were analyzed using the Kato-Katz technique, and 5254 blood samples were tested for circulating Wuchereria bancrofti antigen using immunochromatographic card tests (ICT). 4461 individuals were interviewed regarding a history of ‘eye worm’ (a proxy measure for loiasis) and 31 village chiefs were interviewed regarding the presence of clinical manifestations of LF in their community. At the village level, prevalence of Schistosoma haematobium and S. mansoni ranged from 0 to 65.6% and from 0 to 9.3%, respectively. The main STH species was hookworm, ranging from 0 to 70% by village. Infection with LF and loiasis was extremely rare, with only four individuals testing positive or reporting symptoms, respectively. Questionnaire data on clinical signs of LF did not provide a reliable indication of endemicity. MDA intervention thresholds recommended by the World Health Organization were only exceeded for urinary schistosomiasis and hookworm in a few, yet distinct, communities. Conclusion This was the first attempt to use an integrated survey design for this group of infections and to generate detailed results to guide their control over a large area of Southern Sudan. The approach proved practical, but could be further simplified to reduce field work and costs. The results show that only a few areas need to be targeted with MDA of PCT, thus confirming the importance of detailed mapping for cost-effective control.

[1]  C. Brayne,et al.  Prevalence and Causes of Blindness and Low Vision in Southern Sudan , 2006, PLoS medicine.

[2]  S. Hay,et al.  Guest editors' preface. Global mapping of infectious diseases: methods, examples and emerging applications. , 2006, Advances in parasitology.

[3]  Stanley Lemeshow,et al.  Sampling of Populations: Methods and Applications , 1991 .

[4]  J. Kolaczinski,et al.  Trachoma in Western Equatoria State, Southern Sudan: Implications for National Control , 2009, PLoS neglected tropical diseases.

[5]  S. Brooker Spatial epidemiology of human schistosomiasis in Africa: risk models, transmission dynamics and control , 2007, Transactions of the Royal Society of Tropical Medicine and Hygiene.

[6]  Alan Fenwick,et al.  Mapping the Probability of Schistosomiasis and Associated Uncertainty, West Africa , 2008, Emerging infectious diseases.

[7]  S. Brooker,et al.  Spatial analysis of the distribution of intestinal nematode infections in Uganda , 2004, Epidemiology and Infection.

[8]  E. Ottesen Global programme to eliminate lymphatic filariasis. , 2009, Releve epidemiologique hebdomadaire.

[9]  S. Bennett,et al.  A computer simulation of household sampling schemes for health surveys in developing countries. , 1994, International journal of epidemiology.

[10]  R Moyeed,et al.  Bayesian geostatistical prediction of the intensity of infection with Schistosoma mansoni in East Africa , 2006, Parasitology.

[11]  D. Jamison,et al.  Disease Control Priorities in Developing Countries , 1993 .

[12]  Luc Kestens,et al.  Human schistosomiasis , 2006, The Lancet.

[13]  J. Gyapong,et al.  The use of grid sampling methodology for rapid assessment of the distribution of bancroftian filariasis. , 2001, Transactions of the Royal Society of Tropical Medicine and Hygiene.

[14]  S. Brooker,et al.  Rapid mapping of schistosomiasis and other neglected tropical diseases in the context of integrated control programmes in Africa , 2009, Parasitology.

[15]  M. Deming,et al.  Comparison of methods for estimating drug coverage for filariasis elimination, Leogane Commune, Haiti. , 2003, Transactions of the Royal Society of Tropical Medicine and Hygiene.

[16]  Jürg Utzinger,et al.  Diagnostic dilemmas in helminthology: what tools to use and when? , 2009, Trends in parasitology.

[17]  Patricia M. Graves,et al.  Integrating an NTD with One of “The Big Three”: Combined Malaria and Trachoma Survey in Amhara Region of Ethiopia , 2008, PLoS neglected tropical diseases.

[18]  S. Brooker,et al.  Global epidemiology, ecology and control of soil-transmitted helminth infections. , 2006, Advances in parasitology.

[19]  Michael Beasley,et al.  Use of remote sensing and a geographical information system in a national helminth control programme in Chad. , 2002, Bulletin of the World Health Organization.

[20]  S. Brooker,et al.  Bayesian spatial analysis and disease mapping: tools to enhance planning and implementation of a schistosomiasis control programme in Tanzania , 2006, Tropical medicine & international health : TM & IH.

[21]  D. Blaney,et al.  Rapid assessment for lymphatic filariasis in central Nigeria: a comparison of the immunochromatographic card test and hydrocele rates in an area of high endemicity. , 2003, The American journal of tropical medicine and hygiene.

[22]  Mark Myatt,et al.  Rapid assessment of Schistosoma mansoni: the validity, applicability and cost‐effectiveness of the Lot Quality Assurance Sampling method in Uganda , 2005, Tropical medicine & international health : TM & IH.

[23]  A. Tatem,et al.  Global environmental data for mapping infectious disease distribution. , 2006, Advances in parasitology.

[24]  C. Cheung,et al.  Atlas of the global distribution of schistosomiasis. , 1987 .

[25]  H. Woodman,et al.  Studies on Loa Loa and the First Report of Wuchereria bancrofti in the Sudan. , 1941 .

[26]  O. Baraka,et al.  Helminth infections in Sudan , 1994, The Lancet.

[27]  Edridah M Tukahebwa,et al.  Epidemiology and geography of Schistosoma mansoni in Uganda: implications for planning control , 2004, Tropical medicine & international health : TM & IH.

[28]  F. Richards,et al.  Lymphatic filariasis elimination and schistosomiasis control in combination with onchocerciasis control in Nigeria. , 2002, The American journal of tropical medicine and hygiene.

[29]  E. Michael,et al.  A geostatistical analysis of the geographic distribution of lymphatic filariasis prevalence in southern India. , 2002, The American journal of tropical medicine and hygiene.

[30]  P. J. Hooper,et al.  Projected benefits from integrating NTD programs in sub-Saharan Africa. , 2006, Trends in parasitology.

[31]  R. Sturrock Guidelines for the evaluation of soil-transmitted helminthiasis and schistosomiasis at community level: A guide for managers of control programmes: A. Montresor, D. W. T. Crompton, D. A. P. Bundy, A. Hall & L. Savioli. Geneva: World Health Organization, 1998. iv+46pp☆ , 1998 .

[32]  Eric A. Ottesen,et al.  Global programme to eliminate lymphatic filariasis. , 2010, Releve epidemiologique hebdomadaire.

[33]  L. Chitsulo,et al.  Helminth Infections: Soil-transmitted Helminth Infections and Schistosomiasis , 2006 .

[34]  J. Magambo,et al.  Prevalence of intestinal parasites among children in southern Sudan. , 1998, East African medical journal.

[35]  P. Emerson,et al.  The Burden of Trachoma in Ayod County of Southern Sudan , 2008, PLoS neglected tropical diseases.

[36]  Y Ding,et al.  The Big Three , 1945 .

[37]  Global Mapping of Infectious Diseases: Methods, Examples, and Emerging Applications , 2007, Emerging Infectious Diseases.

[38]  Peter J Hotez,et al.  Soil-transmitted helminth infections: ascariasis, trichuriasis, and hookworm , 2006, The Lancet.

[39]  A. Montresor,et al.  Schistosoma hematobium and S. mansoni among Children, Southern Sudan , 2007, Emerging infectious diseases.

[40]  E. Abdel-Malek Distribution of the intermediate hosts of bilharziasis in relation to hydrography; with special reference to the Nile Basin and the Sudan. , 1958, Bulletin of the World Health Organization.

[41]  B. Grenfell,et al.  The association between microfilaraemia and disease in lymphatic filariasis , 1994, Proceedings of the Royal Society of London. Series B: Biological Sciences.

[42]  S. Brooker,et al.  Southern Sudan: an opportunity for NTD control and elimination? , 2009, Trends in parasitology.