BackgroundLeishmania tropica is a causative agent of cutaneous leishmanaisis in the Middle East, North Africa and parts of southeastern Europe. Although transmission of L. tropica has been reported as anthroponotic, in Israel it was found to have a zoonotic pattern.FindingsA one year old male Pekingese dog from Maale Adumim, a focus of L. tropica human cutaneous leishmaniasis near Jerusalem, was presented by its owner with a large proliferative red mucocutaneous lesion on the lip between the mouth and nose. Physical examination and a biochemistry panel were normal and a complete blood count showed mild leukocytosis with lymphocytosis and eosinophilia. A biopsy of the lesion was suggestive of the presence of Leishmania organisms. Serology for Leishmania sp. by ELISA was positive and an aspirate from the lesion showed a large number of Leishmania amastigotes. ITS1-HRM-PCR of the lesion was positive and sequencing indicated that infection was caused by L. tropica, which was also cultured from the lesion. Blood PCR was negative. The dog responded well to allopurinol treatment and its lesion shrunk considerably within one month of therapy and healed after two months.ConclusionsOnly a few cases of dog infection with L. tropica have been described to date. They were reported from Morocco and Iran and involved infection of visceral organs. This is the first report of focal mucocutaneous L. tropica infection in a dog and its response to anti-leishmanial treatment. Domestic and wild canines should be evaluated for being possible animal reservoirs for human L. tropica infection in endemic areas or merely accidental hosts.
Equine encephalosis virus (EEV) is an orbivirus transmitted by Culicoides species. Most infected horses show mild clinical signs and mortality is usually very low. EEV is closely related and similarly transmitted to other, more pathogenic and economically important, orbiviruses such as African horse sickness virus (AHSV), bluetongue virus (BTV) and epizootic haemorrhagic disease viruses (EHDV), and may serve as an indicator for possible transmission of the latter. Israel has been reported to be endemic for EEV since 2001. This study was initiated to re‐evaluate the current seroprevalence and risk factors for EEV exposure in Israel, and to assess, for the first time, the seroprevalence of EEV in Palestine and Jordan. Three hundred and sixteen serum samples were collected from apparently healthy horses at 21 farms in Israel, 66 horses at nine farms in Palestine and 100 horses at three farms in Jordan. The presence of EEV antibodies was detected by a serum neutralization assay. Seroprevalence of EEV was 58.2% (184/316 horses) in Israel, 48.5% (32/66 horses) in Palestine and 2% (2/100 horses) in Jordan. Seroprevalence in Jordan was significantly lower than in Israel and Palestine (P < 0.001). The farm (P < 0.001) and horse age (P = 0.003) were found as significant risk factors for EEV exposure in Israel in multivariable statistical analysis. The results of this study further demonstrate that EEV is no longer limited to South Africa and is endemic in both Israel and Palestine and horses in Jordan were also exposed to this virus emphasizing the potential of pathogens to invade new ecological niches.
Staphylococcus haemolyticus is a pathogen frequently isolated from dairy cows and small ruminants. However, it always appears in only a few animals and not as a major pathogen. Recently, in a dairy goat herd of approximately 250 milking animals, 25.6% (46/180 goats) had milk cultures with atypical highly mucoid colonies accompanied by elevated somatic cell counts. The isolates were identified as Staph. haemolyticus. The present study describes the steps used in an attempt to identify the bacterium and to compare it with other coagulase-negative staphylococci (CNS) including Staph. haemolyticus. Species identification performed with the API STAPH-IDENT 32 kit showed >99.4% identity confirmed by 16S rDNA sequencing tests. Microscopically the atypical Staph. haemolyticus strains showed unique cuboidal tetrad clusters reminiscent of those of the genus Sarcina. The outbreak caused by an atypical CNS underlines the need for accurate biochemical and genetic methods for ultimate identification of CNS to the species level.
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