Ahead of Print - Zoonotic Leishmaniasis, Bosnia and Herzegovina - Volume 25, Number 2—February 2019 - Emerging Infectious Diseases journal - CDC

Ahead of Print - Zoonotic Leishmaniasis, Bosnia and Herzegovina - Volume 25, Number 2—February 2019 - Emerging Infectious Diseases journal - CDC

Volume 25, Number 2—February 2019

Research Letter

Zoonotic Leishmaniasis, Bosnia and Herzegovina

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Vito Colella, Adnan Hodžić, Roberta Iatta, Gad Baneth, Amer Alić, and Domenico Otranto 

Author affiliations: Università degli Studi di Bari, Bari, Italy (V. Colella, R. Iatta, D. Otranto); University of Veterinary Medicine Vienna, Vienna, Austria (A. Hodžić); The Hebrew University of Jerusalem, Rehovot, Israel (G. Baneth); University of Sarajevo, Sarajevo, Bosnia and Herzegovina (A. Alić)

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Abstract

Leishmania infantum causes potentially life-threatening disease in humans. To determine the extent of the animal reservoir for this pathogen in Bosnia and Herzegovina, we tested dogs and cats. We found that a large proportion of dogs were exposed to or infected with L. infantum, indicating endemicity in dogs and zoonotic risk for humans.

Among neglected tropical diseases, visceral leishmaniasis is one of the most deadly parasitic disease in modern history. Worldwide, it causes an estimated 300,000 new cases and ≈20,000 deaths each year (1). Leishmaniasis has been the hallmark of poverty-related diseases and of tropical infections in humans forced to migrate from and to conflict areas (1).

Like other countries in the Balkan area, Bosnia and Herzegovina is considered a hotspot for neglected infections of poverty (2). The economic, political, and social transformations of this country reflect the armed conflicts of the recent past; 16.9% of the population living under the national poverty level (3). In Bosnia and Herzegovina, leishmaniasis is considered hypoendemic, possibly because of lack of awareness among medical personnel (4). Although the first autochthonous cases of leishmaniasis in Bosnia and Herzegovina (in 4 children) occurred in 1949 and 1954 (5), during the past 10 years, only 7 patients in the capital city of Sarajevo have been hospitalized for this disease (4).

In 2013, 8.2% of the soldiers of the Austrian Armed Forces deployed in peacekeeping missions in Bosnia and Herzegovina were exposed to Leishmaniaspp. (6). Despite small increases in reports of Leishmania infantum infection in human patients from Bosnia and Herzegovina, little information is available about dogs as reservoirs , the main recognized reservoir of zoonotic infection and the target of integrated control strategies. To determine the role of animals in spread of leishmaniasis, we assessed their exposure to and infection with L. infantum. The study protocol was approved by the Ethical Committee of the Department of Veterinary Medicine of the University of Bari (Prot. UniBa 11/18).

In 2017, we tested blood samples from 408 dogs and 5 cats from different areas of Bosnia and Herzegovina for leishmaniasis (Table). To assess the exposure of dogs to Leishmania spp., we tested 180 dogs (free-roaming, client-owned, and shelter) for L. infantum antibodies by using an immunofluorescence antibody test (7); wetested all 408 dogs and 5 cats for the parasites’ DNA by using real-time PCR (8). Samples that were positive by real-time PCR were further analyzed by conventional PCR for sequencing confirmation of the kinetoplast DNA (9) and of the partial internal transcribed spacer 2 ribosomal RNA (10).

Overall, we obtained positive results for 16.7% (95% CI 11.2%–22%) of dogs by immunofluorescence antibody test and 3.1% (95% CI 1.5%–4.8%) of dogs by PCR (Table), indicating that a large proportion of the canine population from Bosnia and Herzegovina has been exposed to or is infected by L. infantum. In addition, we obtained positive results for a client-owned cat from Sarajevo tested by real-time PCR. Consensus sequences of the partial internal transcribed spacer 2 ribosomal RNA and kinetoplast DNA from all animals with positive test results displayed 100% identity to the nucleotide sequences of L. infantum and are available in GenBank (accession nos. MH605316 and MH605317).

After World War II, leishmaniasis was frequently reported for humans and dogs in countries bordering Bosnia and Herzegovina, such as Croatia and Serbia, (4), whereas no information was available for leishmaniasis in dogs in Bosnia and Herzegovina. Our findings indicate the presence of L. infantum in the canine reservoir population in Bosnia and Herzegovina and support the pathogen’s spread across the country and the consequent infection of soldiers deployed in this region and persons living in this resource-limited setting. Although infections in children and soldiers from Sarajevo and its neighboring municipalities in central Bosnia (i.e., Fojnica, Kakanj, and Gornji Vakuf-Uskoplje) have been reported, we show that L. infantum–infected dogs are broadly distributed throughout the country, indicating a potential risk for more human infections.

In Bosnia and Herzegovina, diagnosis and treatment of leishmaniasis is possible only in specialized hospitals, which entails admission of patients at a progressive and often lethal stage of the disease (4). The World Health Organization prioritizes efforts to control or eliminate leishmaniasis in countries where the incidence of the infection in humans is high and advocates for passive surveillance in countries where leishmaniasis is not endemic. Although these efforts are leading to large improvements in the control of the disease in humans, this direction is not optimal for unravelling and fighting neglected leishmaniasis in low-resource settings where no information about animal reservoirs is available, such as Bosnia and Herzegovina. The high percentage and wide distribution of dogs exposed to L. infantum infections implies the existence of autochthonous transmission in the country, thus suggesting that so far, zoonotic leishmaniasis has been neglected in Bosnia and Herzegovina.

Although Bosnia and Herzegovina is located near wealthy countries (Europe includes most of the highly industrialized G8 nations), it ranks in the last quartile of the global human developmental index. Hence, a greater political commitment of European Union policy makers is central to implementation of a proper surveillance system to promptly identify animal reservoirs of L. infantumand favor timely diagnosis and treatment for human populations living in poverty and for domestic animals. These data should encourage a One Health approach to provide comprehensive tools and policy recommendations to fight neglected leishmaniasis in Bosnia and Herzegovina.

Dr. Colella is a research fellow at the Department of Veterinary Medicine, University of Bari, Italy. His main research activities focus on the epidemiology of neglected zoonotic diseases of dogs and cats.

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Acknowledgment

The European Network for Neglected Vectors & Vector-Borne Infections (EurNegVec TD1303) supported this study.

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References

1. World Health Organization. Leishmaniasis [cited 2018 Sep 17]. http://www.who.int/leishmaniasis/en
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3. The World Bank. Bosnia and Herzegovina [cited 2018 Sep 17]. https://data.worldbank.org/country/bosnia-and-herzegovina
4. Alvar  J, Vélez  ID, Bern  C, Herrero  M, Desjeux  P, Cano  J, et al.; WHO Leishmaniasis Control Team. Leishmaniasis worldwide and global estimates of its incidence. PLoS One. 2012;7:e35671. DOIPubMed
5. Gvozdenovic  M, Miladinovic  Z. [Epidemiological studies on two autochthonous cases of kala-azar in Bosnia] [in undetermined language]. Med Arh. 1959;12:95–101.PubMed
6. Obwaller  AG, Köhsler  M, Poeppl  W, Herkner  H, Mooseder  G, Aspöck  H, et al. Leishmania infections in Austrian soldiers returning from military missions abroad: a cross-sectional study. Clin Microbiol Infect. 2018;24:1100.e1–6. DOIPubMed
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8. Francino  O, Altet  L, Sánchez-Robert  E, Rodriguez  A, Solano-Gallego  L, Alberola  J, et al. Advantages of real-time PCR assay for diagnosis and monitoring of canine leishmaniosis. Vet Parasitol. 2006;137:214–21. DOIPubMed
9. Cortes  S, Rolão  N, Ramada  J, Campino  L. PCR as a rapid and sensitive tool in the diagnosis of human and canine leishmaniasis using Leishmania donovani s.l.-specific kinetoplastid primers.Trans R Soc Trop Med Hyg. 2004;98:12–7. DOIPubMed
10. de Almeida  ME, Steurer  FJ, Koru  O, Herwaldt  BL, Pieniazek  NJ, da Silva  AJ. Identification of Leishmania spp. by molecular amplification and DNA sequencing analysis of a fragment of rRNA internal transcribed spacer 2. J Clin Microbiol. 2011;49:3143–9. DOIPubMed

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Table

• Table. Positivity to Leishmania infantum of dogs and cats kept in different living conditions and from selected geographic areas in Bosnia and Herzegovina

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Suggested citation for this article: Colella V, Hodžić A, Iatta R, Baneth G, Alić A, Otranto D. Zoonotic leishmaniasis, Bosnia and Herzegovina. Emerg Infect Dis. 2019 Feb [date cited]. https://doi.org/10.3201/eid2502.181481

DOI: 10.3201/eid2502.181481

Original Publication Date: 12/4/2018