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Hans Lutz Diane Addie Sándor Belák Corine Boucraut-Baralon Herman Egberink Tadeusz Frymus Tim Gruffydd-Jones Katrin Hartmann Margaret J. Hosie Albert Lloret Fulvio Marsilio Maria Grazia Pennisi Alan D. Radford Etienne Thiry Uwe Truyen Marian C. Horzinek 《Journal of Feline Medicine and Surgery》2009,11(7):565-574
OverviewFeline leukaemia virus (FeLV) is a retrovirus that may induce depression of the immune system, anaemia and/or lymphoma. Over the past 25 years, the prevalence of FeLV infection has decreased considerably, thanks both to reliable tests for the identification of viraemic carriers and to effective vaccines.InfectionTransmission between cats occurs mainly through friendly contacts, but also through biting. In large groups of non-vaccinated cats, around 30–40% will develop persistent viraemia, 30–40% show transient viraemia and 20–30% seroconvert. Young kittens are especially susceptible to FeLV infection.Disease signsThe most common signs of persistent FeLV viraemia are immune suppression, anaemia and lymphoma. Less common signs are immune-mediated disease, chronic enteritis, reproductive disorders and peripheral neuropathies. Most persistently viraemic cats die within 2–3 years.DiagnosisIn low-prevalence areas there may be a risk of false-positive results; a doubtful positive test result in a healthy cat should therefore be confirmed, preferably by PCR for provirus. Asymptomatic FeLV-positive cats should be retested.Disease managementSupportive therapy and good nursing care are required. Secondary infections should be treated promptly. Cats infected with FeLV should remain indoors. Vaccination against common pathogens should be maintained. Inactivated vaccines are recommended. The virus does not survive for long outside the host.Vaccination recommendationsAll cats with an uncertain FeLV status should be tested prior to vaccination. All healthy cats at potential risk of exposure should be vaccinated against FeLV. Kittens should be vaccinated at 8–9 weeks of age, with a second vaccination at 12 weeks, followed by a booster 1 year later. The ABCD suggests that, in cats older than 3–4 years of age, a booster every 2–3 years suffices, in view of the significantly lower susceptibility of older cats. 相似文献
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Materials performance in structural applications is often restricted by a transition from ductile response to brittle fracture with decreasing temperature. This transition is currently viewed as being controlled either by dislocation mobility or by the nucleation of dislocations. Fracture experiments on tungsten single crystals reported here provide evidence for the importance of dislocation nucleation for the fracture toughness in the semibrittle regime. However, it is shown that the transition itself, in general, is controlled by dislocation mobility rather than by nucleation. 相似文献
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Tadeusz Frymus Diane Addie Sándor Belák Corine Boucraut-Baralon Herman Egberink Tim Gruffydd-Jones Katrin Hartmann Margaret J. Hosie Albert Lloret Hans Lutz Fulvio Marsilio Maria Grazia Pennisi Alan D. Radford Etienne Thiry Uwe Truyen Marian C. Horzinek 《Journal of Feline Medicine and Surgery》2009,11(7):585-593
OverviewRabies virus belongs to the genus Lyssavirus, together with European bat lyssaviruses 1 and 2. In clinical practice, rabies virus is easily inactivated by detergent-based disinfectants.InfectionRabid animals are the only source of infection. Virus is shed in the saliva some days before the onset of clinical signs and transmitted through a bite or a scratch to the skin or mucous membranes. The average incubation period in cats is 2 months, but may vary from 2 weeks to several months, or even years.Disease signsAny unexplained aggressive behaviour or sudden behavioural change in cats must be considered suspicious. Two disease manifestations have been identified in cats: the furious and the dumb form. Death occurs after a clinical course of 1–10 days.DiagnosisA definitive rabies diagnosis is obtained by post-mortem laboratory investigation. However, serological tests are used for post-vaccinal control, especially in the context of international movements.Disease managementPost-exposure vaccination of cats depends on the national public health regulations, and is forbidden in many countries.Vaccination recommendationsA single rabies vaccination induces a long-lasting immunity. Kittens should be vaccinated at 12–16 weeks of age to avoid interference from maternally derived antibodies and revaccinated 1 year later. Although some vaccines protect against virulent rabies virus challenge for 3 years or more, national or local legislation may call for annual boosters. 相似文献
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Characterization of the structural proteins of porcine epizootic diarrhea virus, strain CV777 总被引:2,自引:0,他引:2
H F Egberink J Ederveen P Callebaut M C Horzinek 《American journal of veterinary research》1988,49(8):1320-1324
Pig epizootic diarrhea virus cannot be grown in cell culture; for its characterization, intestinal perfusate material from a pig infected with the strain CV777 had to be used. In isopyknic sucrose gradients, a peak of virus-specific ELISA activity was detected at a density of 1.17 g/ml. Using immunoprecipitation of radioiodinated-purified virus material followed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis, 3 proteins of low molecular weight (20,000 to 32,000 daltons [D]) were found; after blotting nitrocellulose and glycoprotein identification with concanavalin A and horseradish peroxidase, 1 of the proteins (23,000 D) gave a signal. Another protein of 58,000 D was encountered, which was the only protein binding an RNA probe. Finally, a protein of 85,000 D was visible, associated with minor bands of about 110,000 and 135,000 D in most experiments. Using the concanavalin A-blotting technique, the same bands were visualized. The demonstration of a polydisperse cluster of proteins from 20,000 to 32,000 D (of which at least 1 is glycosylated), of glycosylated proteins from 85,000 to 135,000 D, and of an RNA-binding protein of 58,000 D is taken as structural evidence that pig epizootic diarrhea virus should be classified with the Coronaviridae, irrespective of the apparent lack of an antigenic relationship with other members of that family. 相似文献
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The objectives of the present study were to investigate the bacteria accompanying hydrosalpinx of the buffalo cow and investigate the correlation between bacterial infection of the uterus and hydrosalpinx. Buffalo cows’ reproductive tracts were collected from Mosul abattoir. A total 385 uterine samples were examined of which 25 were having hydrosalpinx. Swabs for bacteriology, fluid for cytology and biopsies for histopathology were collected from the hydrosalpinx and the uterus from each samples included in this study. Results of this study indicated high prevalence of hydrosalpinx (6.5%) including unilateral (n = 19; 76%) and bilateral (n = 6; 24%) hydrosalpinx. Although 16 samples (64%) of the hydrosalpinx samples had no bacterial growth, the most prevalent bacteria recovered from hydrosalpinx were Corynebacterium hemolyticum and Actinomyces bovis, 42.8% and 28.6%, respectively. The most prevalent bacteria in the uterus were Archanobacterium pyogenes (18.5%), Staphylococcus aureus (14.8%), and Listeria monocytogenes (11.0%). Higher rates of leukocytes infiltration (p < 0.01) were observed in the uterine discharge than hydrosalpinx. A significant (p < 0.01) increase in lymphocytes was found in uterine discharge. Microscopic examination of the hydrosalpinx showed mucosal atrophy and dilatation of oviductal lumen without any signs of inflammation. It could be concluded that there is no correlation between bacteria isolated from uterus and hydrosalpinx. No association was found between bacteriological cultures and hydrosalpinx. Inflammation of the uterine tissue could be extended to utero‐tubal junction producing local inflammation resulting in fibrosis and tubal obstruction. The obstruction in the lumen of the oviducts resulted in accumulation of fluid. 相似文献
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Herman Egberink Diane Addie Sándor Belák Corine Boucraut-Baralon Tadeusz Frymus Tim Gruffydd-Jones Katrin Hartmann Margaret J. Hosie Albert Lloret Hans Lutz Fulvio Marsilio Maria Grazia Pennisi Alan D. Radford Etienne Thiry Uwe Truyen Marian C. Horzinek 《Journal of Feline Medicine and Surgery》2009,11(7):610-614
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Comparison of six in-house tests for the rapid diagnosis of feline immunodeficiency and feline leukaemia virus infections 总被引:1,自引:0,他引:1
Six rapid tests for the diagnosis of feline immunodeficiency virus (FIV) and feline leukaemia virus (FeLV) infections which have recently been introduced in Europe for use in small animal practice were compared. Eight hundred serum samples were tested and those reacting FIV-positive in at least one of the tests were confirmed by Western blot, and those reacting FeLV-positive were confirmed by virus isolation. The specificity and sensitivity of each test and the quality of the results produced were compared. 相似文献
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Boomkens SY Penning LC Egberink HF van den Ingh TS Rothuizen J 《The Veterinary quarterly》2004,26(3):107-114
The causes of hepatitis in dogs are mostly unknown. Known causes of canine hepatitis are infectious (CAV-1), toxic (e.g. aflatoxin), and metabolic (copper accumulation). In order to understand the unknown causes, research in this field is necessary. Despite the marked progress in the knowledge on viral causes for human hepatitis, the involvement of infectious agents in the pathogenesis of hepatitis in the dog is still largely unknown. It is, like in human hepatitis, very likely that more than one causative infectious agent may cause hepatitis in the dog. This review presents the various forms of hepatitis in the dog, the known infectious and non-infectious causes of canine hepatitis, the infectious causes of hepatitis in man and other animals, and finally our recent infection and molecular studies to investigate possible infectious causes of canine hepatitis. 相似文献