Your search keyword '"Bosward KL"' showing total 4 results

1. New insights on the epidemiology of Coxiella burnetii in pet dogs and cats from New South Wales, Australia.

Author

Ma GC, Norris JM, Mathews KO, Chandra S, Šlapeta J, Bosward KL, and Ward MP

Subjects

Animal Feed, Animals, Cat Diseases epidemiology, Cats, Disease Outbreaks, Dog Diseases epidemiology, Dogs, Female, Food Microbiology, Humans, Incidence, Macropodidae microbiology, Meat microbiology, New South Wales epidemiology, Prevalence, Q Fever epidemiology, Seroepidemiologic Studies, Zoonoses epidemiology, Cat Diseases microbiology, Coxiella burnetii, Dog Diseases microbiology, Q Fever veterinary

Abstract

Q fever is considered one of the most important zoonoses in Australia. Whilst ruminants are the primary reservoirs for Coxiella burnetii, and the major source of human infection, human cases have also been reported following contact with pet dogs and cats. This study aimed to estimate the prevalence of seropositivity to, and bacterial shedding of, C. burnetii by pet dogs and cats in a region with a high human Q fever incidence and explore risk factors for C. burnetii exposure. Samples (serum, whole blood, reproductive tissue, reproductive swabs) and questionnaires (completed by the pet's owner) were collected from dogs and cats from eight communities across remote New South Wales (NSW), Australia. Overall 86/330 dogs (26.1%, 95% CI 21.3-30.8%) and 19/145 cats (13.1%, 95% CI 7.6-18.6%) were seropositive to C. burnetii. Seroprevalence varied significantly between communities and was highest in communities within 150 km of a 2015 human Q fever outbreak. Feeding raw kangaroo was identified as a risk factor for seropositivity (adjusted OR 3.37, 95% CI 1.21-9.43). Coxiella burnetii DNA was not detected from any dog or cat whole blood, reproductive tissue or vaginal/preputial swab using qPCR targeting the IS1111 and com1 genes. Our findings suggest that companion animals are frequently exposed to C. burnetii in western NSW. Geographical variation in C. burnetii seroprevalence amongst companion animals - which corresponds with a human Q fever outbreak - suggests a shared environmental source of infection is likely with important consequences for public and animal health. The lack of detection of C. burnetii DNA from healthy companion animals suggests that pet dogs and cats are not an important reservoir for human Q fever infection outside a narrow periparturient window., Competing Interests: Declaration of Competing Interest The authors have no competing interests., (Copyright © 2020 Elsevier B.V. All rights reserved.)

Published

2020

2. Cytopathological and histopathological diagnosis of canine splenic disorders.

Author

Christensen N, Canfield P, Martin P, Krockenberger M, Spielman D, and Bosward K

Subjects

Animals, Biopsy, Fine-Needle veterinary, Dog Diseases classification, Dogs, Female, Hyperplasia veterinary, Male, Necrosis veterinary, New South Wales epidemiology, Prevalence, Registries, Schools, Veterinary, Splenic Diseases classification, Splenic Diseases epidemiology, Splenic Diseases pathology, Dog Diseases epidemiology, Dog Diseases pathology, Spleen pathology, Splenic Diseases veterinary

Abstract

Objectives: To determine (1) the common types of canine splenic disorders, and the breeds affected, that are diagnosed by cytopathological and histopathological examination in Sydney, Australia and (2) the accuracy of cytopathological examination compared with histopathological examination for the diagnosis of canine splenic disorders., Design: 69 cytopathological and 51 histopathological diagnoses of canine splenic disorders presented to the Veterinary Pathology Diagnostic Services, The University of Sydney during 2006 and 2007 were tabulated and analysed; 17 cases examined both cytopathologically and histopathologically during 2001-07 were also analysed., Results: The most common cytopathological diagnoses were benign disorders of growth, vascular disturbances and necrosis (29%), followed by no abnormalities detectable (28%), malignant neoplasms (20%), equivocal diagnoses (20%) and inflammatory disorders (3%). The most common breeds were Kelpie crosses and mixed breeds. The most common histopathological diagnoses were benign disorders of growth, vascular disturbances and necrosis (49%), followed by malignant neoplasms (43%) and inflammatory disorders (8%). The most common breeds were German Shepherd Dogs, Boxers and Maltese Terriers. Cytopathological and histopathological diagnoses were in complete agreement in 59% of cases, partial agreement in 29% and disagreement in 12%., Conclusion: Benign disorders of growth, vascular disturbances and necrosis were the most commonly diagnosed canine splenic disorders, both cytopathologically and histopathologically. Kelpie crosses presented most frequently for cytopathological examination. German Shepherd Dogs were the most common breed diagnosed histopathologically with haemangiosarcoma. Although cytopathological and histopathological splenic examinations are complementary for diagnosis, this study has shown a high correlation for complete and partial agreement between the two.

Published

2009

3. Elapid snake envenomation in dogs in New South Wales: a review.

Author

Heller J, Mellor DJ, Hodgson JL, Reid SW, Hodgson DR, and Bosward KL

Subjects

Animals, Diagnosis, Differential, Dog Diseases drug therapy, Dog Diseases pathology, Dogs, Elapid Venoms antagonists & inhibitors, New South Wales epidemiology, Snake Bites diagnosis, Snake Bites drug therapy, Snake Bites pathology, Species Specificity, Antivenins therapeutic use, Dog Diseases diagnosis, Elapid Venoms adverse effects, Elapidae, Snake Bites veterinary

Abstract

Elapid snake envenomation in dogs is a commonly occurring yet poorly described clinical entity. Twelve species of dangerously venomous elapid snakes are found in New South Wales that are capable of causing disease in dogs. Geographical distribution of these species varies, as does their venom composition and systemic envenomation syndromes produced in target species. Elapid venom may be divided into the components of prothrombin activating enzymes, lipases and peptidic neurotoxins. Each species of elapid snake may possess venom components that fit any or all of these classifications. The action of these venom components may result in neurotoxic (pre-synaptic and post-synaptic), haemotoxic (red-cell destruction and coagulation disturbance), cardiovascular, myotoxic and secondary nephrotoxic effects. Marked variability may occur in venom composition between and within snake species, resulting in varying toxicity between species and also potentially unreliable clinical syndromes following envenomation. The existence of certain components consistently within the venom of each snake species allows the broad definition of basic pathological processes and clinicopathological changes resulting from snake species-specific envenomation and these are discussed. Diagnosis of snake envenomation is unreliable if based on clinical signs alone and the use of these signs in conjunction with history, physical examination and laboratory investigation, including snake venom detection kits, is recommended. Treatment of systemic envenomation should be undertaken with initial effective first aid and subsequent administration of snake species-specific antivenom.

Published

2007

4. Snake envenomation in dogs in New South Wales.

Author

Heller J, Bosward KL, Hodgson JL, Cole FL, Reid SW, Hodgson DR, and Mellor DJ

Subjects

Animals, Antivenins therapeutic use, Diagnosis, Differential, Dogs, New South Wales epidemiology, Snake Bites diagnosis, Snake Bites epidemiology, Snake Bites therapy, Snake Venoms antagonists & inhibitors, Species Specificity, Surveys and Questionnaires, Dog Diseases diagnosis, Dog Diseases epidemiology, Dog Diseases therapy, Elapidae classification, Snake Bites veterinary, Snake Venoms adverse effects

Abstract

Objective: To obtain baseline data on the prevalence of elapid snake envenomation in dogs presented to veterinary practices in New South Wales and to assess attitudes of veterinarians to this clinical entity., Procedure: A mailed questionnaire, sent to all veterinary clinics within New South Wales, was utilised to collect epidemiological information regarding elapid snake envenomation in dogs., Results: A response rate of 68% was obtained and a yearly prevalence of snake envenomation in dogs across New South Wales veterinary clinics was estimated as 0.31%. The most common species reported to be responsible for envenomation within NSW was the Red Bellied Black snake (Pseudechis porphyriacus) followed by the Brown snake (Pseudonaja textilis) and then Tiger snake (Notechis scutatus). The reported envenomation syndromes caused by these common snake species were perceived to be similar for Brown and Tiger snakes but differed for Red Bellied Black snakes. Diagnosis of snake envenomation was based predominantly on the recognition of clinical signs. Specific diagnostic tests, such as venom detection kits, were used infrequently. The most common treatment was reported to be a combination of intravenous fluid therapy and antivenom, and monitoring of response to this treatment was usually through assessment of clinical signs. Survival after antivenom administration was reported to be highest for Red Bellied Black snake species. Survival was perceived to be associated with time between envenomation and presentation to the veterinary clinic and with antivenom administration., Conclusions: Current attitudes and perceptions of veterinarians have been defined. Diagnosis of species-specific snake envenomation is shown to be made on the basis of clinical signs which are, however, reported as similar for each species. Clearer definition of these envenomation syndromes and identification of accessible diagnostic testing procedures are needed.

Published

2005