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Peer-reviewed veterinary case report

Tick-borne diseases found in Finnish dogs surveyed

By Pérez Vera, Cristina et al.·Published in Parasites & vectors·2014·Haartman Institute·View original on PubMed

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Original publication title: Survey of selected tick-borne diseases in dogs in Finland.

Species:
dog

Plain-English summary

A study found that some dogs in Finland are exposed to tick-borne diseases, with the highest rates of exposure to Anaplasma phagocytophilum (Ap), which can cause health issues. In a group of 340 dogs, about 5.3% tested positive for Ap, while 2.9% had antibodies for Borrelia burgdorferi (Bb), another tick-related illness. The highest rates were seen in dogs from the Åland Islands, where nearly half of the dogs tested positive for Ap. This information is important for pet owners in Finland to understand the risks of tick-borne diseases and the need for preventive measures.

People also search for: dog tick disease Finland · Anaplasma in dogs · tick prevention for dogs in Finland

Abstract

BACKGROUND: Due to climate changes during the last decades, ticks have progressively spread into higher latitudes in northern Europe. Although some tick borne diseases are known to be endemic in Finland, to date there is limited information with regard to the prevalence of these infections in companion animals. We determined the antibody and DNA prevalence of the following organisms in randomly selected client-owned and clinically healthy hunting dogs living in Finland: Ehrlichia canis (Ec), Anaplasma phagocytophilum (Ap), Borrelia burgdorferi (Bb) and Bartonella. METHODS: Anti-Ap, -Bb and -Ec antibodies were determined in 340 Finnish pet dogs and 50 healthy hunting dogs using the 4DX Snap&#xae;Test (IDEXX Laboratories). In addition, PCRs for the detection of Ap and Bartonella DNA were performed. Univariate and multivariate logistic regression analyses were used to identify risk factors associated with seropositivity to a vector borne agent. RESULTS: The overall seroprevalence was highest for Ap (5.3%), followed by Bb (2.9%), and Ec (0.3%). Seropositivities to Ap and Bb were significantly higher in the &#xc5;land Islands (p <0.001), with prevalence of Ap and Bb antibodies of 45 and 20%, respectively. In healthy hunting dogs, seropositivity rates of 4% (2/50) and 2% (1/50) were recorded for Ap and Bb, respectively. One client-owned dog and one hunting dog, both healthy, were infected with Ap as determined by PCR, while being seronegative. For Bartonella spp., none of the dogs tested was positive by PCR. CONCLUSIONS: This study represents the first data of seroprevalence to tick borne diseases in the Finnish dog population. Our results indicate that dogs in Finland are exposed to vector borne diseases, with Ap being the most seroprevalent of the diseases tested, followed by Bb. Almost 50% of dogs living in &#xc5;land Islands were Ap seropositive. This finding suggests the possibility of a high incidence of Ap infection in humans in this region. Knowing the distribution of seroprevalence in dogs may help predict the pattern of a tick borne disease and may aid in diagnostic and prevention efforts.

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Original publication on PubMed: https://pubmed.ncbi.nlm.nih.gov/24957468/