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Emerging Infectious Diseases

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Acknowledgments
References
Figure
Appendix Figure
Suggested Citation

Volume 13, Number 3–March 2007

Letter

Kala-azar Control, Uganda

Jan H. Kolaczinski,*† Dagemlidet Tesfaye Worku,‡ François Chappuis,§¶ Richard Reithinger,† Narcis Kabatereine,# Ambrose Onapa,# and Simon Brooker†
*Malaria Consortium Africa, Kampala, Uganda; †London School of Hygiene & Tropical Medicine, London, United Kingdom; ‡Médecins Sans Frontières, Kampala, Uganda; §Médecins Sans Frontières, Geneva, Switzerland; ¶Geneva University Hospital, Geneva, Switzerland; and #Ministry of Health, Kampala, Uganda

Suggested citation for this article

To the Editor: Much of the leishmaniasis in Africa is concentrated in East Africa. In this region, visceral leishmaniasis (kala-azar) is caused by Leishmania donovani and is endemic in remote parts of Somalia, Sudan, Ethiopia, Kenya, and Uganda (1).

Figure

Appendix Figure

Appendix Figure. Map showing Pokot Country (shaded box) in eastern Uganda and western Kenya.

In Uganda, kala-azar is transmitted by the sandfly Phlebotomus martini, and transmission is thought to be anthroponotic. Studies in Sudan and Kenya have detected L. donovani in domestic animals (2,3), but whether these play a role in Uganda is unknown. In Uganda, the disease appears to be restricted to Pokot County, a semiarid lowland area in Nakapiripirit District (Appendix Figure). This focus is an extension of a larger focus in West Pokot District in Kenya (4). The area is mainly inhabited by the Pokot, a seminomadic tribe of pastoralists. Nakapiripirit is one of the most underserved districts of Uganda, plagued by tribal clashes.

Though kala-azar has been reported in East Africa since the early 1900s, it was not described in Uganda until the 1950s (5) and remained largely unnoticed until 1997, when Médecins Sans Frontières (MSF, Swiss Section) began to provide assistance to Amudat Health Centre in Pokot County. In 2000, MSF initiated a kala-azar control program, focusing on passive case detection and treatment.

From January 2000 to February 2006, a total of 3,645 patients suspected of having kala-azar were screened at Amudat Health Centre by using the direct agglutination test or rK39 antigen–based dipsticks (6); 2,088 patients with confirmed disease were treated with daily intramuscular injections of sodium stibogluconate or meglumine antimonite, 20 mg/kg bodyweight, for 30 days. Overall, 80% of the patients were <15 years of age, 75% were male, and 70% were from Kenya. From 2000 through 2005, the number of patients treated more than tripled, from 175 to 690 cases per year. Although this increase likely results, at least in part, from greater case detection due to the availability of treatment, we cannot exclude a real increase in disease because kala-azar prevalence in the area is unknown.

Information on local vector behavior and risk factors for infection or disease (e.g., malnutrition and HIV coinfection) is limited, and which potential interventions are appropriate is unclear. A pilot entomologic study in 2004 (J. Stevenson, master's thesis) demonstrated that termite mounds (Figure) are important vector breeding and resting sites and that the practice of sitting on termite mounds while guarding livestock might increase the risk for infection. In contrast, humans may be protected from kala-azar when in close proximity to livestock (i.e., because of diversion of sandflies to alternative hosts) or when lighting fires indoors (smoke acts as a repellant to most biting flies). Ownership of insecticide-treated nets, which could protect persons from sandfly bites and reduce kala-azar transmission (7), was low. Although most of the local population had heard of kala-azar, known locally as termes, and regarded it as potentially fatal, few were aware of how kala-azar is transmitted (J. Stevenson, master's thesis).

MSF's treatment of kala-azar is crucial because it reduces the human reservoir and hence transmission. However, current control activities only reach the tip of the iceberg: a large, underlying pool of infected and infectious persons likely exists (8,9).

Kala-azar in Uganda will not likely be controlled unless the epidemiology of the disease is better understood and preventive activities are undertaken. This knowledge gap is being addressed by a partnership among the Malaria Consortium, MSF, the London School of Hygiene and Tropical Medicine, and the Vector Control Division of the Ugandan Ministry of Health. A case-control study to determine the local risk factors of kala-azar is almost completed and will be followed by seroprevalence studies in several Pokot villages, using a similar approach to recent work in the Baringo District, Kenya (9). The results will be used to formulate an integrated control strategy aimed at achieving our ultimate goal of eliminating kala-azar from Uganda.

Acknowledgments

We thank the local staff at the kala-azar ward in Amudat; Moses Rutale, Clara Chemusungun, and Susan Awino for providing regular treatment services at Amudat Health Centre; and Andrew Ochieng and John Kasimiro for their work on the ongoing case-control study.

We are grateful to the Sir Halley Stewart Trust, Cambridge, UK, for providing financial support. S.B. is supported by a Wellcome Trust Advanced Training Fellowship (#073656).

References

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Mukhtar MM, Sharief AH, el Saffi SH, Harith AE, Higazzi TB, Adam AM, et al. Detection of antibodies to Leishmania donovani in animals in a kala-azar endemic region in eastern Sudan: a preliminary report. Trans R Soc Trop Med Hyg. 2000;94:33–6.
Mutero CM, Mutinga MJ, Ngindu AM, Kenya PR, Amimo FA. Visceral leishmaniasis and malaria prevalence in West Pokot District, Kenya. East Afr Med J. 1992;69:3–8.
Wykoff DE, Barnley GR, Winn MM. Studies on kala-azar in Uganda—entomological observations. East Afr Med J. 1969;46:204–7.
Chappuis F, Mueller Y, Nguimfack A, Rwakimari JB, Couffignal S, Boelaert M, et al. Diagnostic accuracy of two rK39 antigen-based dipsticks and the formol gel test for rapid diagnosis of visceral leishmaniasis in northeastern Uganda. J Clin Microbiol. 2005;43:5973–7.
Bern C, Joshi AB, Jha SN, Das ML, Hightower A, Thakur GD, et al. Factors associated with visceral leishmaniasis in Nepal: bednet use is strongly protective. Am J Trop Med Hyg. 2000;63:184–8.
Collin SM, Coleman PG, Ritmeijer K, Davidson RN. Unseen Kala-azar deaths in south Sudan (1999–2002). Trop Med Int Health. 2006;11:509–12.
Ryan JR, Mbui J, Rashid JR, Wasunna MK, Kirigi G, Magiri C, et al. Spatial clustering and epidemiological aspects of visceral leishmaniasis in two endemic villages, Baringo District, Kenya. Am J Trop Med Hyg. 2006;74:308–17.

Figures

Figure. A large termite mound occupies the central area of this characteristic Pokot compound. The mound provides a resting and breeding site for the sandly vector of visceral leishmaniasis. Photographer: J.H. Kolaczinski.
Appendix Figure. Map showing Pokot Country (shaded box) in eastern Uganda and western Kenya.