Gioia Capelli

The northward spread of leishmaniasis in Italy: evidence from retrospective and ongoing studies on the canine reservoir and phlebotomine vectors

Visceral leishmaniasis (VL) incidence has been increased in Italy in humans and dogs since the 1990s, with new foci being detected within traditional boundaries of endemic transmission but also in northern regions previously regarded as non‐endemic. To monitor the putative VL spreading, surveillance was implemented in northern continental Italy comprising: analysis of human cases recorded from 1990 through 2005; retrospective literature analysis of canine leishmaniasis (CanL) and phlebotomine sandfly records through 2002; prospective investigations in dogs from 2003 through 2005 and surveys on sandflies in 2003 and 2004. Two‐hundred‐thirty human cases (11% of Italian cases) were recorded. Their stratification by age and HIV status disclosed a sharp decrease of HIV/VL co‐infections paralleled by concomitant increase of paediatric and HIV‐negative adult patients during the study period. Four patients had no travel history. Seven leishmaniasis foci were retrospectively identified since 1990, whereas prospective investigations in dogs disclosed 47 autochthonous clinical cases and 106 autochthonous seropositives among 5442 dogs (2.1%) from 16 foci of six regions. Parasites were typed as Leishmania infantum MON‐1. Four vector species were identified among 1696 Phlebotomus (Larroussius) collected specimens. Comparisons with historical data showed that P. perniciosus and P. neglectus have increased in density and expanded their geographic range in the study area. Northern continental Italy is now focally endemic for VL and a moderate risk for human disease does exist, although the intensity of transmission seems to be lower than in traditional settings of Mediterranean VL.

Evaluation of enzyme-linked immunosorbent assays, an immunofluorescent-antibody test, and two rapid tests (immunochromatographic-dipstick and gel tests) for serological diagnosis of symptomatic and asymptomatic Leishmania infections in dogs.

ABSTRACT Enzyme-linked immunosorbent assays (ELISAs) based on soluble antigens derived from promastigote or amastigote-like stages of Leishmania infantum and on the recombinant rK39 antigen, each in combination with different conjugates [anti-immunoglobulin G1 [IgG1], anti-IgG2, anti-IgG(γ), and anti-IgG heavy plus light chains], were compared to an immunofluorescent-antibody test (IFAT) and two commercially available rapid test systems (DiaMed-Vet-IT Leish and ID-PaGIA canine leishmaniasis antibody test) for the detection of specific anti-Leishmania antibodies in symptomatic and asymptomatic dogs with proven L. infantum infections. ELISAs based on soluble promastigote and amastigote antigens had very high sensitivities in symptomatic (n = 30; 100%) and asymptomatic dogs (n = 17; 94.1 to 100%), except when combined with the anti-IgG1 conjugate (41.2 to 82.4%). Specificities were high for all combinations (n = 50; 96 to 100%). The rK39 ELISA detected fewer asymptomatic cases (sensitivities, 52.9 to 64.7%) but was highly specific (96 to 100%). The IFAT was 90% sensitive in symptomatic dogs but was significantly less sensitive in asymptomatic cases (29.4%). However, it had an excellent specificity (100%). Test performances of the rapid tests based on the rK39 antigen were comparable to the ELISAs based on the same antigen. ELISAs based on soluble promastigote or amastigote antigens seem to be most suited for the serological diagnosis of canine Leishmania infections in both symptomatic and asymptomatic dogs. IFAT and the rK39 ELISA lack sensitivity in asymptomatic cases but are highly specific. Rapid tests like the rK39 dipstick test or the ID-PaGIA are helpful for confirming clinically suspected cases because of their high specificities in symptomatic animals.

Vector-borne helminths of dogs and humans in Europe

Presently, 45% of the total human population of Europe, as well as their domestic and companion animals, are exposed to the risk of vector-borne helminths (VBH) causing diseases. A plethora of intrinsic biological and extrinsic factors affect the relationship among helminths, vectors and animal hosts, in a constantly changing environment. Although canine dirofilarioses by Dirofilaria immitis and Dirofilaria repens are key examples of the success of VBH spreading into non-endemic areas, another example is represented by Thelazia callipaeda eyeworm, an emergent pathogen of dogs, cats and humans in several regions of Europe. The recent finding of Onchocerca lupi causing canine and human infestation in Europe and overseas renders the picture of VBH even more complicated. Similarly, tick-transmitted filarioids of the genus Cercopithifilaria infesting the skin of dogs were recently shown to be widespread in Europe. Although for most of the VBH above there is an increasing accumulation of research data on their distribution at national level, the overall impact of the diseases they cause in dogs and humans is not fully recognised in many aspects. This review investigates the reasons underlying the increasing trend in distribution of VBH in Europe and discusses the diagnostic and control strategies currently available. In addition, this article provides the authors’ opinion on some topics related to VBH that would deserve further scientific investigation.

Evidence of West Nile virus lineage 2 circulation in Northern Italy.

A West Nile virus (WNV) strain belonging to lineage 2 was for the first time detected in two pools of Culex pipiens collected in the province of Udine and in tissues of a wild collared dove (Streptopelia decaocto) found dead in the province of Treviso, in North East of Italy. It was molecularly identified by group and WNV lineage specific RT-PCRs and characterized by partial sequencing of the NS3 and NS5 genes. When compared with the sequences of same fragments of NS3 and NS5 of the WNV lineage 2 strain isolated from birds of prey in Hungary (2004), the phylogenetic analysis of these sequences revealed 100% and 99% similarity, respectively. As the Hungarian strain, the NS3 selected sequence differed from the 2010 Greek isolate by one amino-acid located at 249 site which is the site involved in genetic modulation of WNV pathogenicity. The Italian and Hungarian strains have histidine rather than proline at this site. The presence of a lineage 2 strain in regions where the lineage 1 strain is still circulating, creates a new scenario with unpredictable consequences. In this situation comprehensive investigations on the occurrence, ecology, and epidemiology of these different WNV strains circulating in Italy become the highest priority.

European Surveillance for West Nile Virus in Mosquito Populations

A wide range of arthropod-borne viruses threaten both human and animal health either through their presence in Europe or through risk of introduction. Prominent among these is West Nile virus (WNV), primarily an avian virus, which has caused multiple outbreaks associated with human and equine mortality. Endemic outbreaks of West Nile fever have been reported in Italy, Greece, France, Romania, Hungary, Russia and Spain, with further spread expected. Most outbreaks in Western Europe have been due to infection with WNV Lineage 1. In Eastern Europe WNV Lineage 2 has been responsible for human and bird mortality, particularly in Greece, which has experienced extensive outbreaks over three consecutive years. Italy has experienced co-circulation with both virus lineages. The ability to manage this threat in a cost-effective way is dependent on early detection. Targeted surveillance for pathogens within mosquito populations offers the ability to detect viruses prior to their emergence in livestock, equine species or human populations. In addition, it can establish a baseline of mosquito-borne virus activity and allow monitoring of change to this over time. Early detection offers the opportunity to raise disease awareness, initiate vector control and preventative vaccination, now available for horses, and encourage personal protection against mosquito bites. This would have major benefits through financial savings and reduction in equid morbidity/mortality. However, effective surveillance that predicts virus outbreaks is challenged by a range of factors including limited resources, variation in mosquito capture rates (too few or too many), difficulties in mosquito identification, often reliant on specialist entomologists, and the sensitive, rapid detection of viruses in mosquito pools. Surveillance for WNV and other arboviruses within mosquito populations varies between European countries in the extent and focus of the surveillance. This study reviews the current status of WNV in mosquito populations across Europe and how this is informing our understanding of virus epidemiology. Key findings such as detection of virus, presence of vector species and invasive mosquito species are summarized, and some of the difficulties encountered when applying a cost-effective surveillance programme are highlighted.

Serological survey of Neospora caninum and Leishmania infantum co-infection in dogs

A seroprevalence survey and risk analysis of Neospora caninum and Leishmania infantum was conducted in dogs from an area of the Campania region of southern Italy, in order to investigate the co-infection of these two protozoa. Blood samples were collected from 1058 asymptomatic dogs over a 18 months period. Serum samples were tested for antibodies to N. caninum and to L. infantum using the indirect fluorescent antibody test. Epidemiological data (breed, age, sex, and utilization) were collected and statistically analysed in relation to N. caninum and to L. infantum seropositivity and antibody titres. Out of the 1058 sera samples tested, 68 (6.4%) were found to have antibodies to N. caninum, and 222 (21.0%) to have antibodies to L. infantum. The co-presence of antibodies to N. caninum and to L. infantum was found in 46 (4.3%) dogs. Thus, 67.6% of the dogs positive for N. caninum also had antibodies to L. infantum. The major risk factor for N. caninum seropositivity was the presence of antibodies to L. infantum, and the major risk factor for L. infantum seropositivity was the presence of antibodies to N. caninum. In addition, high N. caninum seroprevalence was closely correlated to Boxer breed, and high L. infantum seroprevalence was correlated to masculine gender and Setter and Pit bull breeds. Low L. infantum seroprevalence was closely correlated to Yorkshire breed. The findings of this survey indicate that in the Campania region of southern Italy the co-presence of antibodies to N. caninum and to L. infantum is very common in dogs, and that infection by one protozoan seems to enhance the susceptibility to the other one. This is probably due to the immunological status of the tested dogs.

Prevention of endemic canine vector-borne diseases using imidacloprid 10% and permethrin 50% in young dogs: a longitudinal field study.

Canine vector-borne diseases (CVBDs) are highly prevalent and increasing in distribution worldwide. A longitudinal study was conducted in southern Italy to determine the incidence of and protection against CVBD-causing pathogens in dogs treated with a combination of imidacloprid 10% and permethrin 50% (ImPer). One hundred eleven autochthonous young dogs were divided into group A (n=63) and group B (n=48), both groups containing dogs positive and negative for one or more CVBD-causing pathogens. Additionally, 10 naïve male beagles were introduced in each group in May 2008. Group A was treated with ImPer on day 0 and every 21+/-2 days whereas group B was left untreated. Blood and skin samples were collected at baseline (March-April 2008) and at the first, second and third follow-up times (July and October 2008 and April 2009). Bone marrow was sampled at baseline and at the third follow-up. Serological, cytological and molecular tests were performed to detect Anaplasma platys, Babesia spp., Bartonella spp., Dirofilaria immitis, Ehrlichia canis, Hepatozoon canis and Leishmania infantum. Ectoparasites (fleas, ticks, and sand flies) were monitored throughout the study. The baseline prevalence of CVBDs was 39.6% with 44 dogs positive for at least one pathogen. A. platys (27.5%) and Babesia spp. (15.6%) were the most prevalent species and co-infections with up to two pathogens were detected in 16 (14.7%) individuals. At the end of the evaluation period, there was a 90.7% reduction in overall CVBD incidence density rate (IDR) in group A, as following: 100% reduction in L. infantum; 94.6% in E. canis; 94.4% in Babesia spp.; and 81.8% in A. platys. Initially positive treated dogs showed significantly lower pathogen prevalence at the third follow-up than untreated ones. At the end of the evaluation period, 8 of the 10 untreated beagles were infected with at least one pathogen whereas one of the treated beagles was A. platys positive at a single time point (second follow-up). Overall efficacy against ticks was 97.9%. In October 2009, samples were collected from the remaining 83 dogs (44 from group A and 39 from group B) to investigate the annual incidence of CVBDs in the same, at this time untreated, dog population. A high year incidence for tick-borne diseases (78.1%) and for L. infantum (13.6%) was detected in dogs from group A, seven months after the treatment had been withdrawn. The results demonstrate that ImPer preventive treatment against arthropods protects autochthonous and naïve beagle dogs against CVBD-causing pathogens.

Diagnosis of Canine Vector-Borne Diseases in Young Dogs: a Longitudinal Study

ABSTRACT Canine vector-borne diseases (CVBDs) pose a diagnostic challenge, particularly when a dog is coinfected with more than one pathogen. The purpose of this study was to generate information about the diagnosis of CVBDs in young dogs following their first exposure to flea, tick, sand fly, louse, and mosquito vectors. From March 2008 to May 2009, 10 purpose-bred young naive beagle dogs and a cohort of 48 mixed-breed dogs living in an area to which CVBD is endemic in southern Italy were monitored using different diagnostic tests (cytology, serology, and PCR). Overall, PCR detected the highest number of dogs infected with Anaplasma platys, Babesia vogeli, and Ehrlichia canis, whereas seroconversion was a more sensitive indicator of exposure to Leishmania infantum. For A. platys infection, combining blood and buffy coat cytology in parallel enhanced the relative sensitivity (SErel) (87.3%). For B. vogeli, the best diagnostic combination was buffy coat cytology and serology used in parallel (SErel, 67.5%), whereas serology and PCR used in parallel (SErel, 100%) was the best combination for L. infantum. Overall, 12 (20.7%) dogs were coinfected; however, the percentage of new coinfections decreased from baseline (50%) to the first (33.3%) and second (16.6%) follow-up time points. Numbers of coinfections with A. platys and B. vogeli were significantly higher (P < 0.05) than coinfections with other pathogen combinations. The data generated in this study provide insights on the incidence of certain pathogens infecting young dogs in southern Italy, highlight important diagnostic testing limitations, and support the use of multiple diagnostic modalities when attempting to confirm a tick-borne infection in an individual dog or in a canine population.

Saturation deficit and deer density affect questing activity and local abundance of Ixodes ricinus (Acari, Ixodidae) in Italy

The wood tick Ixodes ricinus, one of the most common arthropod-borne disease vectors, is of increasing relevance for human and animal health in Europe. The aim of this study was to determine the relative contribution of several abiotic and biotic factors potentially affecting questing activity and local abundance of I. ricinus in Italy, considering the scale at which these factors interact with the host-seeking ticks. Within EDEN, a large-scale EU collaborative project on eco-epidemiology of vector-borne diseases, we collected questing ticks for three consecutive years using a standard protocol at eleven sites in the Italian Alps and Apennines. A total of 25 447 I. ricinus were collected. All sites showed the same annual pattern of tick activity (bimodal for nymphs and unimodal for larvae and adults), although the abundance of nymphs was statistically different between sites and years. A Generalized Linear Mixed Model and a Linear Mixed Model fitted to data for nymphs, showed that while the principal variables affecting the local abundance of questing ticks were saturation deficit (an index combining temperature and relative humidity) and red deer density, the most important variable affecting questing nymph activity was saturation deficit. As for the timing of seasonal emergence, we confirmed that the threshold temperature at this latitude for larvae is 10°C (mean maximum) while that for nymphs is 8°C.

Ticks infesting humans in Italy and associated pathogens.

BackgroundTicks may transmit a large variety of pathogens, which cause illnesses in animals and humans, commonly referred to as to tick-borne diseases (TBDs). The incidence of human TBDs in Italy is underestimated because of poor surveillance and the scant amount of studies available.MethodsSamples (n = 561) were collected from humans in four main geographical areas of Italy (i.e., northwestern, northeastern, southern Italy, and Sicily), which represent a variety of environments. After being morphologically identified, ticks were molecularly tested with selected protocols for the presence of pathogens of the genera Rickettsia, Babesia, Theileria, Candidatus Neoehrlichia mikurensis, Borrelia and Anaplasma.ResultsTicks belonged to 16 species of the genera Argas, Dermacentor, Haemaphysalis, Hyalomma, Ixodes and Rhipicephalus, with Ixodes ricinus (59.5%) being the species most frequently retrieved, followed by Rhipicephalus sanguineus sensu lato (21.4%). Nymphs were the life stage most frequently retrieved (41%), followed by adult females (34.6%). The overall positivity to any pathogen detected was 18%. Detected microorganisms were Rickettsia spp. (17.0%), Anaplasma phagocytophilum (0.8%), Borrelia afzelii (0.5%), Borrelia valaisiana (0.3%), C. N. mikurensis (0.5%) and Babesia venatorum (0.6%).ConclusionsResults indicate that people living in the Italian peninsula are at risk of being bitten by different tick species, which may transmit a plethora of TBD causing pathogens and that co-infections may also occur.