Maha Diekan Abbas scite author profile

Respiratory diseases in boid snakes are common in captivity, but little information is available on their aetiology. This study was carried out to determine the occurrence of lung associated pathogens in boid snakes with and without respiratory signs and/or pneumonia. In total, 80 boid snakes of the families Boidae (n = 30) and Pythonidae (n = 50) from 48 private and zoo collections were included in this survey. Husbandry conditions were evaluated using a detailed questionnaire. All snakes were examined clinically and grouped into snakes with or without respiratory signs. Tracheal wash samples from all snakes were examined bacteriologically as well as virologically. All snakes were euthanased, and a complete pathological examination was performed. Respiratory signs and pneumonia were detected more often in pythons than in boas. An acute catarrhal pneumonia was diagnosed more often in snakes without respiratory signs than in snakes with respiratory signs, which revealed fibrinous and fibrous pneumonia. Poor husbandry conditions are an important trigger for the development of respiratory signs and pneumonia. Different bacterial pathogens were isolated in almost all snakes with pneumonia, with Salmonella species being the most common. Ferlavirus (formerly known as ophidian paramyxovirus)-RNA was detected only in pythons. Inclusion body disease was rarely seen in pythons but often in boas. Adenovirus and Mycoplasma were other pathogens that were diagnosed in single snakes with pneumonia. In living boid snakes with respiratory signs, tracheal wash samples were found to be a useful diagnostic tool for the detection of viral and bacterial pathogens.

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A unique novel reptilian paramyxovirus, four atadenovirus types and a reovirus identified in a concurrent infection of a corn snake (Pantherophis guttatus) collection in Germany

Abbas

Marschang

Schmidt

et al. 2011

Veterinary Microbiology

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In 2009, 26 clinical samples (organs and oral/cloacal swabs) from a total of 24 corn snakes (Pantherophis guttatus) from a single owner were sent to our laboratory to be tested for the presence of viruses. Paramyxoviruses (PMV), adenoviruses (AdV) and reoviruses were detected by RT-PCR, PCR and virus isolation methods. Three snakes were infected with all three viruses at the same time, while two other snakes had a double infection (PMV and reo, AdV and reo) and nine other snakes had a single infection with any of the three viruses. No viruses were detected in 10 animals. All isolated reoviruses were identical to one another and to the reptilian orthoreovirus isolate 55-02 in the partial RNA dependent RNA polymerase (RDRP) gene sequence. AdV partial polymerase sequences represented four different types, one of which was first described here: most similar to SnAdV-1, while the other three were identical to known types: SnAV-1, -2 and -3. However, the detected single PMV differed distinctly from described reptile PMV and was a new type. According to partial L gene, HN gene and U gene sequences it may be the first described representative of a third squamatid PMV cluster: "group C" within the proposed reptilian PMV genus "Ferlavirus". Nucleotide identity values for the L gene of the new PMV compared to group A viruses range between 76.5 and 80.3%, and between 80.5 and 81.2% compared to group B viruses. For the HN gene, these values were similar: 78.2-80% (A) and 79.9-80.5% (B) and somewhat lower for the U gene: 72.7-75.4% (A) and 69.7-70% (B). No reports on the prevalence of concurrent viral infection in captive snake populations have been published so far. The possibility of concurrent infection with several different viruses and subsequent consequences for animal health should be kept in mind when testing reptile samples for viruses.

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Use of filter carrier technique to measure the persistence of avian influenza viruses in wet environmental conditions

Nazir

Haumacher

Abbas

et al. 2010

Journal of Virological Methods

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Role of Water Fleas (Daphniamagna) in the Accumulation of Avian Influenza Viruses from the Surrounding Water

et al. 2012

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Objective: To determine the role of water fleas in accumulating avian influenza viruses (AIV) from the surrounding water and to estimate their role as a vector of AIV. Methods: Water fleas were exposed to H4N6 and H5N1 AIV-contaminated water in a closed system. The potential of water fleas to take up and retain the viruses was estimated by quantitative real-time RT-PCR (qRRT-PCR) and titration on cell culture. Results: Contamination trials showed that significantly higher amounts of viral RNA were detectable per gram of water fleas as compared to per milliliter of the surrounding water at 1, 4, and 6 days of incubation. Viral infectivity was only detectable in the water samples collected immediately after mixing the virus in water containing the water fleas, while no virus was detectable in any of the water fleas or water samples collected afterwards. Conclusions: Water fleas are able to accumulate AIV from surrounding water based upon the qRRT-PCR detection of viral RNA. Additional studies are necessary to investigate the inactivation potential of water fleas on viral infectivity.

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A novel type of paramyxovirus found in Hungary in a masked water snake (Homalopsis buccata) with pneumonia supports the suggested new taxonomy within the Ferlavirus genus

Papp

Gál

Abbas

et al. 2013

Veterinary Microbiology

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