Leptospirosis in Urban Wild Boars, Berlin, Germany

We found antibodies to leptospires in 25 (18%) of 141 wild boars from Berlin (95% confidence interval 12–25). Seropositivity was associated with chronic interstitial nephritis (odds ratio 10.5; p = 0.01), and leptospires were detected in kidney tissues. Wild boars represent a potential source for human leptospirosis in urban environments.

L eptospira spp. are endemic to many domestic and wild animals, which may shed the pathogen in urine (1). Humans may acquire potentially fatal leptospirosis through contact with urine-contaminated water or soil. In Germany, ≈50 cases of leptospirosis are reported each year, mostly related to recreational and residential exposures (2). Among wildlife species, rodents are considered to be the most important reservoirs for leptospirosis in rural and urban environments (3,4). Contact with water contaminated with rodents' urine (usually inadequately treated sewage) is a well-known risk factor for leptospirosis. In wild boars (Sus scrofa) in Europe and the United States, antibodies against Leptospira spp. serovar Pomona-the main serogroup that infects domestic swine-have been frequently detected (5,6). During the past decades, the population density of this game species has increased substantially (7,8). Subsequently, boar migration to urban areas and close contact with humans has been noted. At present, an estimated 5,000 wild boars live in urban and suburban areas of Berlin. Although boars are known to be susceptible to leptospirosis, data on the prevalence of the disease in synanthropic wild boars and the possible implications for human health are absent. Our objective was to assess the potential role of wild boars as a reservoir for leptospirosis in an urban environment. In addition, we examined their role in transmission of Leptospira spp. to city residents with occupational exposure to wild boars.

The Study
The survey was conducted in Berlin, which has an area of 891.7 km 2 and a population of 3.4 million. The study area is mostly urban (56%) and contains industrial, commercial, and residential buildings; the other portions are forest (17.9%), green space (14.5%), and water (6.6%). The southwestern study area partially merges with the adjacent city of Potsdam. Serum and kidney tissue samples were collected from wild boars killed in the study area for population control during fall and winter 2005-06. Wild boars were categorized according to age (determined by teeth; shoats <1 year, yearlings 1-2 years, adults >2 years), sex, and location of death. For antibody detection, microscopic agglutination test was conducted with a panel of 12 leptospiral serovars; a titer >100 was considered positive (Table 1). For histologic investigation, the tissues were fi xed in 10% formalin; embedded in paraffi n; and stained with hematoxylin and eosin, Masson trichrome, or Warthin-Starry silver according to standard protocols. Chronic interstitial nephritis and resultant renal fi brosis, the characteristic lesions of renal leptospirosis in animals (9), were the criteria used to classify renal infection. Selected tissue samples were further studied by classic PCR targeting the leptospiral outer membrane lipoprotein LipL32 (10). The amplifi cation products were confi rmed by direct sequencing.
To assess seroprevalence among city residents, in April 2006 we enrolled 84 municipal hunters from Berlin. A standardized questionnaire was used to assess demographic information (age, sex), frequencies of contact with wild boars, and use of gloves during boar evisceration. Serum samples were collected from all hunters and analyzed as described above. Univariate odds ratios (OR), prevalence ratios (PR), and 95% confi dence intervals (95% CI) were calculated by using SPSS 14 software (SPSS Inc., Chicago, USA). A p value <0.05 was considered signifi cant.

Conclusions
Our study describes a newly discovered urban focus of leptospirosis among wild boars in Berlin. The high frequency of porcine Leptospira spp. serovars Pomona and Bratislava, the association of chronic interstitial nephritis with positive results of the microscopic agglutination test, and the demonstration of leptospires in kidney specimens all indicate that wild boars act as a maintenance host for Leptospira spp. in this urban area. A relatively high prevalence of leptospirosis was observed in the southwestern districts of the city, which are particularly rich in freshwater *Microscopic agglutination test panel included Leptospira interrogans serovars Australis, Autumnalis, Bataviae, Bratislava, Copenhageni, Hardjo, Icterohaemorrhagiae, Pomona, and Pyrogenes; Leptospira borgpetersenii serovar Tarassovi; and Leptospira kirschneri serovar Grippotyphosa. A titer of >100 or above was considered positive. The highest titers are shown. †NK, not known. ‡Shoat, <1 y; yearling, 1-2 y; adult >2 y. §Numbers correspond to areas shown in Figure 1.  Tables 1 and 2. lakes intensively used for recreational activities by urban inhabitants. The relevance of this fi nding to human health was demonstrated by a recent case of severe leptospirosis in this area of Berlin; the patient had had contact with fresh water, which was most likely contaminated by wild boar urine (11).
In contrast to fi ndings of a study from Austria (12), we found no antibodies to leptospires in hunters. Although this fi nding may be related to the regular use of gloves by highly exposed persons, it also indicates that the transmission of leptospirosis from wild boars to humans, although present, occurs at a considerably low rate. However, the epidemic potential of infections like leptospirosis that have a basic reproduction number close to 0 (i.e., that are minimally transmissible within human populations) is largely determined by the number of introductions from the animal hosts. Thus, among other contributing factors (e.g., human population expansion and encroachment, transmission to sympatric populations of susceptible domestic animals), the ongoing increase in wild boar populations, and the shift from sylvatic to synanthropic occurrence of this game species might lead to increased leptospirosis in humans.
From a public health perspective, surveillance of leptospirosis incidence, prevalence, and serovar distribution in wild boars and humans (especially in potential high-risk groups with recreational freshwater contact) is necessary to establish the direction and the signifi cance of this newly discovered potential exposure route. Additionally, physicians and public health authorities should be aware that bodies of fresh water in areas populated with wild boars may be contaminated with Leptospira spp., even if typical indicators, like rat infestations or contamination with sewage, are absent.