Subclinical infection with avian influenza A (H5N1) virus in cats.Avian influenza avian influenza: see influenza. A virus subtype (programming) subtype - If S is a subtype of T then an expression of type S may be used anywhere that one of type T can and an implicit type conversion will be applied to convert it to type T. H5N1 was transmitted to domestic cats by close contact with infected birds. Virus-specific nucleic acids Nucleic acids The cellular molecules DNA and RNA that act as coded instructions for the production of proteins and are copied for transmission of inherited traits. were detected in pharyngeal pharyngeal /pha·ryn·ge·al/ (fah-rin´je-al) pertaining to the pharynx. pha·ryn·geal or pha·ryn·gal adj. Of, relating to, located in, or coming from the pharynx. swabs from 3 of 40 randomly sampled cats from a group of 194 animals (day 8 after contact with an infected swan). All cats were transferred to a quarantine station and monitored for clinical signs, virus shedding virus shedding n. Excretion of virus from the infected host by any route. , and antibody production until day 50. Despite unfamiliar handling, social distress, and the presence of other viral and nonviral pathogens that caused illness and poor health and compromised the immune systems, clinical signs of influenza did not develop in any of the cats. There was no evidence of horizontal transmission to other cats because antibodies against H5N1 virus developed in only 2 cats. ********** Avian influenza has attracted worldwide attention because highly pathogenic avian influenza virus subtype H5N1 can cause fatal infections in humans (1) and other mammals (2). Domestic cats and wild cats in a zoo have reportedly shown severe clinical signs and they may die of natural or experimental infections (3-7). Ingestion ingestion /in·ges·tion/ (-chun) the taking of food, drugs, etc., into the body by mouth. in·ges·tion n. 1. The act of taking food and drink into the body by the mouth. 2. of infected birds was assumed to be the route of transmission in cats. However, horizontal transmission by experimentally infected cats has been demonstrated (3) and was also assumed under natural conditions in tigers in Thailand (8). No data are available on nonlethal outcomes of H5N1 infection in cats and whether horizontal transmission between feline hosts occurs under natural conditions. Also unknown is whether domestic cats play a role in the epidemiology of avian influenza, which could be an undefined hazard for poultry and humans (9). During the first weeks of 2006, moribund or dead birds infected with avian influenza (H5N1) were found near water in Germany, Slovenia, and Austria. On February 14, 2006, a sick swan was found near the Mur River in Austria and transported to an animal shelter in Graz, Austria, where it died within 24 hours (day 1). PCR PCR polymerase chain reaction. PCR abbr. polymerase chain reaction Polymerase chain reaction (PCR) and egg culture identified avian influenza virus (H5N1) in the swan and in 13 of 38 other culled birds (swans, ducks, chickens) (day 4) housed with the swan at the same time. Only the swan developed clinical signs of disease. On day 4, the poultry area was disinfected Disinfected Decreased the number of microorganisms on or in an object. Mentioned in: Isolation after all 38 birds were removed. In the same shelter were 194 cats; most had access to an outdoor enclosure near the poultry area and were separated from the birds by a wire-mesh fence. On several occasions, 1 or 2 unidentified cats were observed climbing the fence and entering the poultry area. Ingestion of birds by cats was not observed. Austrian authorities ordered random sampling of the cat population at the shelter because of spatial proximity of poultry and cats and the possible exposure of cats to infective debris of the birds. The bird area was left unoccupied while the cats were under observation. The purpose of this study was to monitor health status and possible transmission within a large cat population with proven natural exposure to H5N1 influenza virus. Materials and Methods Pharyngeal swabs of 40 cats were sampled (10) on day 8 and tested for H5N1 virus by PCR; positive results were obtained for 3 cats (cats 1, 2, and 3). All positive results were confirmed at the OIE OIE Office International des Épizooties (French: International Office of Epizootics; Paris) OIE Oficina Internacional de Epizootias (Spanish: World Organization for Animal Health) reference laboratory in Weybridge, United Kingdom. All PCRs for H5N1 were conducted at the Agency for Health and Food Safety in Modling, Austria. Daily physical examination by veterinarians showed no signs of influenza in any cat on days 4-21. In a follow-up examination on day 15, 0 of 34 cats of the 40 cats previously tested (on day 8) were positive for H5N1 virus in pharyngeal swabs. In 3 cats that had died during this period, necropsy necropsy /nec·rop·sy/ (nek´rop-se) examination of a body after death; autopsy. nec·rop·sy n. See autopsy. necropsy examination of a body after death. See also autopsy. showed no evidence of infectious respiratory disease, and PCR results for influenza virus were negative. On day 22 after the H5N1-infected swan was put in the animal shelter, 167 cats (5 kittens 4-6 months of age and 162 adults) were still available for further observations. Three cats had died and 24 other cats had been placed in private households. Before discharge from the shelter and within 1 week thereafter, all of these cats were examined and no abnormal health status was observed. A total of 167 cats were transported in small groups in [approximately equal to] 50 containers for 12 h from the animal shelter to a quarantine area and housed in 2 separate groups from day 22 until day 50. Average floor space for each cat was [approximately equal to] 1.4[m.sup.2]. The larger group contained 139 cats (including cats 1 and 2); the smaller group contained 28 cats. Cat 3 was not available for further examination because it was healthy before leaving the shelter and, to our knowledge, did not die. The smaller group was always separated from the larger group and was kept indoors at the animal shelter in Graz. In the quarantine area, the 167 cats were housed in 2 closed rooms, without any activity restriction, and had free access to food and water. Routine physical examination, including auscultation auscultation Procedure for detecting certain defects or conditions by listening for normal and abnormal heart, breath, bowel, fetal, and other sounds in the body. The invention of the stethoscope in 1819 improved and expanded this practice, still very useful despite the of the chest, was done on days 22, 29, and 50 for all cats at the quarantine station. In case of an obvious health problem, clinical signs were monitored by daily physical examination and serologic testing. The litter pans of the cats and floors of the quarantine areas were cleaned every day and disinfected every other day. On days 22 and 29, pharyngeal and rectal swabs were obtained and transported in phosphate-buffered saline containing antimicrobial drugs (10). Swabs were obtained with special care to avoid any contact with the environment and were transferred immediately into tubes containing transport media. Blood was obtained on days 22, 29, 36, and 50. To facilitate physical examinations and collection of samples, we gave mild general anesthesia (propofol and midazolam) to all cats on day 29 (Table). Pharyngeal and rectal swabs were examined for the matrix gene of influenza A virus by using a real-time reverse transcription-PCR (RT-PCR RT-PCR reverse transcriptase-polymerase chain reaction. See PCR1. ) according to the method of Spackman et al. (11). To screen for additional infections that might influence the health and immune status of the cats, we obtained 64 additional pharyngeal swabs on day 29 from cats with upper respiratory symptoms and tested them for nucleic acids specific for feline herpesvirus herpesvirus, any of the family (Herpesviridae) of common DNA-containing viruses, many of which are associated with human disease. See cytomegalovirus; Epstein-Barr virus; herpes simplex; herpes zoster. 1 (FHV-1)--and feline calicivirus (FCV FCV feline calicivirus. ). Real-time RT-PCR for FCV was conducted in a volume of 25 [micro]L (22 [micro]L reaction mixture and 3 [micro]L template) in the Real-Time PCR system 7300 (Applied Biosystems, Foster City, CA, USA). The reaction mixture was prepared following the manufacturer's instructions of a commercially available kit (SuperScript Any letter, digit or symbol that appears above the line. For example, 10 to the 9th power is written with the 9 in superscript (109). Contrast with subscript. III Platinum One-Step Quantitative RT-PCR Kit, Invitrogen, Carlsbad, CA, USA). This mixture contained 10 pmol/L of each primer (forward primer: 5'-AGTGGCATGACCGCCCT-3', reverse primer: 5'-CGTTAGCGCAGGTTGAGCA-3'), and 5 pmol/L of probe (5'-FAM-CACTGTGATGTGTTCGAAGTTTG AGCA-TAMRA-3'). The cycler scheme consisted of 2 pre-PCR steps of 50[degrees]C for 15 min and 95[degrees]C for 2 min, followed by 45 cycles of 95[degrees]C for 15 s and 60[degrees]C for 30 s. Cycle threshold values were calculated by using PCR 7300 software (Applied Biosystems). FHV-1 nucleic acid was detected by PCR as described by Reubel et al. (12) and Stiles Stiles can refer to: People
Plasma samples were tested for feline leukemia virus feline leukemia virus n. A retrovirus that primarily affects cats, is transmitted through saliva, and causes suppression of the immune system and anemia, leading to opportunistic infections and diseases such as leukemia and lymphoma. (FeLV) antigen and antibodies against influenza virus A (H5N1), feline immunodeficiency virus Feline immunodeficiency virus (FIV), commonly known as Feline AIDS is a lentivirus that affects domesticated housecats worldwide. According to Richards (Dec 2005:215-217), 11% of cats worldwide are infected with FIV. According to another study, 2. (FIV FIV feline immunodeficiency virus. ), and feline coronavirus coronavirus /co·ro·na·vi·rus/ (ko-ro´nah-vi?rus) any virus belonging to the family Coronaviridae. Coronavirus /Co·ro·na·vi·rus/ (ko-ro´nah-vi?rus (FCoV). Antibodies to influenza virus were detected with a hemgglutination inhibition test according to the procedures of the World Organisation for Animal Health (14), FeLV antigen was detected by using an ELISA ELISA (e-li´sah) Enzyme-Linked Immuno-Sorbent Assay; any enzyme immunoassay using an enzyme-labeled immunoreactant and an immunosorbent. ELISA n. (ViraCHEK/FeLV, Synbiotics Corporation, San Diego, CA, USA), and antibodies to FIV were detected by using an immunomigration test (Witness FIV, Synbiotics Corporation). Three dilutions (1:10, 1:100, and 1:400) of each plasma sample were tested for antibodies to group 1 coronaviruses by a modified indirect immunofluorescence assay (15). Conjunctival con·junc·ti·val adj. Relating to the conjunctiva. conjunctival pertaining to or emanating from conjunctiva. congenital conjunctival membrane , pharyngeal, and rectal swabs were cultured for pathologic bacterial infections (16). Two cats that seroconverted for H5N1 virus (cats 1 and 4) were humanely killed on day 50. Necropsy was performed on these 2 cats and on 12 other cats that had died during the observation period; organ homogenates (lung, liver, brain, trachea trachea (trā`kēə) or windpipe, principal tube that carries air to and from the lungs. It is about 4 1-2 in. (11.4 cm) long and about 3-4 in. (1.9 cm) in diameter in the adult. , tonsils tonsils, name commonly referring to the palatine tonsils, two ovoid masses of lymphoid tissue situated on either side of the throat at the back of the tongue. , stomach, spleen, and pancreas) were tested for influenza virus-specific nucleic acids for each cat. Results H5N1 virus-positive cats (1 and 2) and H5N1 virus antibody-positive cats (1 and 4) did not show any signs of influenza virus-associated illness after the swan had been placed in the animal shelter (days 1-50). Upper respiratory symptoms (laryngitis laryngitis, inflammation of the mucous membrane of the voice box, or larynx, usually accompanied by hoarseness, sore throat, and coughing. Acute laryngitis is often a secondary bacterial infection triggered by infecting agents causing such illnesses as colds, , bronchitis, and tracheitis tracheitis Inflammation and infection of the trachea. Inhaled irritants can injure the tracheal lining and increase the chance of infection (bacterial or viral). Acute infections, usually bacterial, produce fever, fatigue, and swelling of the tracheal lining but generally do ) were evident in 30 cats, bronchopneumonia bronchopneumonia: see pneumonia. in 40 cats, diarrhea in 7 cats, mucosal lesions in 37 cats, and traumatic wounds and lesions in 10 cats. However, for each cat with clinical symptoms that might have been associated with influenza infection, another specific etiologic reason for illness could be documented. Pathomorphologic examination showed no lesions associated with respiratory infection in cats 1 and 4 or in any other cat that had died before day 50. Influenza A virus-specific nucleic acids were not detected in any organ sample tested by PCR. Likewise, all pharyngeal and rectal swabs obtained at the quarantine station were negative for influenza A virus by PCR. Antibodies against influenza virus A (H5N1) were detected in 2 cats (1 and 4, Table) with titers 256 on day 50 in both cats. Cats 1, 2, and 4 had negative test results for FeLV and FIV, but all 3 cats had high antibody titers against FCoV. FCV was detected in the swab from cat 2, and a double infection with FCV and FHV-1 was detected in cat 4. Clinical, bacteriologic bac·te·ri·ol·o·gy n. The study of bacteria, especially in relation to medicine and agriculture. bac·te , and virologic tests identified infection with FeLV in 15 cats, FIV in 12 cats, and antibodies against FCoV in all but 1 cat. A total of 44 swabs showed positive results for FCV-specific nucleic acids, 4 for FHV-1; 13 samples showed a double infection with FCV and FHV-1. Some pathologic bacterial infections of the respiratory and digestive system were confirmed by swab cultures. All veterinarians and staff members at the animal shelter and at the quarantine area were clinically monitored for any influenzalike symptoms. Because results of this monitoring were unremarkable and virus excretion by the cats was not detected, serologic tests were not conducted for these persons. Discussion This is the first description of an asymptomatic infection with highly pathogenic H5N1 influenza virus in domestic cats. Although infection was detected in a group of cats by positive PCR results for pharyngeal swabs in 3 cats and seroconversion seroconversion /se·ro·con·ver·sion/ (-con-ver´zhun) the change of a seronegative test from negative to positive, indicating the development of antibodies in response to immunization or infection. in 2 cats, there was no evidence for influenza-associated disease. This finding contrasts with reports documenting cats with rapidly and developing and fatal disease caused by influenza A virus subtype H5N1 (3-5,7). High fever, depression, severe pneumonia, pulmonary edema, nonsuppurative encephalitis encephalitis (ĕnsĕf'əlī`təs), general term used to describe a diffuse inflammation of the brain and spinal cord, usually of viral origin, often transmitted by mosquitoes, in contrast to a bacterial infection of the meninges , and sudden death were observed after natural (5) or experimental infections (3,7). Infection with influenza virus H5N1 was shown to cause severe lower respiratory tract Noun 1. lower respiratory tract - the bronchi and lungs lung - either of two saclike respiratory organs in the chest of vertebrates; serves to remove carbon dioxide and provide oxygen to the blood disease as well as systemic disease that affected many organs outside the respiratory tract, which could explain the increased pathogenicity of this virus for other organ systems (3,17). During the observation period, episodes of sickness including respiratory symptoms (mild dyspnea dyspnea /dysp·nea/ (disp-ne´ah) labored or difficult breathing.dyspne´ic paroxysmal nocturnal dyspnea , conjunctival, and nasal discharge), oral mucosal lesions, and diarrhea were observed in cats in both groups in the animal shelter and in the quarantine station. A long (12 hours) and uncomfortable transport to the quarantine area, social distress caused by high population density, repeated restraint for examinations and sample collection, and multiple infectious agents may have caused such a high level of illness. Twelve cats died or were humanely killed while in a moribund state between days 22 and 50. All showed signs of disease other than infection with influenza virus A and died of feline infectious peritonitis Feline infectious peritonitis (FIP) is a fatal, incurable disease that affects cats. It is caused by Feline Infectious Peritonitis Virus (FIPV), which is a mutation of Feline Enteric Coronavirus (FECV/FeCoV). Experts do not always agree on the specifics of FIP. , cardiomyopathy Cardiomyopathy Definition Cardiomyopathy is a chronic disease of the heart muscle (myocardium), in which the muscle is abnormally enlarged, thickened, and/or stiffened. , enteritis enteritis (ĕn'tərī`tĭs), inflammation of the gastrointestinal tract. Acute enteritis is not usually serious except in infants and older people, in whom the accompanying diarrhea can cause dehydration through the loss of fluids. , or nephropathy nephropathy /ne·phrop·a·thy/ (ne-frop´ah-the) disease of the kidneys.nephropath´ic analgesic nephropathy ; none tested positive for H5N1 virus. During the observation period from days 22 to 50, excretion of virus was not detected in the pharynx pharynx (fâr`ĭngks), area of the gastrointestinal and respiratory tracts which lies between the mouth and the esophagus. In humans, the pharynx is a cone-shaped tube about 4 1-2 in. (11.43 cm) long. or feces. Positive results were observed only on day 8 for 3 of the randomly sampled swabs. Therefore, viral shedding is assumed to have lasted <2 weeks in cats 1 and 2. In 1 study, no information was reported on the duration of virus shedding because only severe illness with a lethal outcome was reported or the cats were killed 7 days after experimental infection (3). Because seroconversion was confirmed in only 2 animals, horizontal transmission within the group of 194 cats is unlikely. This conclusion is consistent with the finding that no virus shedding could be demonstrated after day 8, but it contrasts with the results of Rimmelzwaan et al. (3), who demonstrated horizontal transmission from experimentally infected cats to sentinel cats, and results of studies in mice and ferrets (18,19). After infection by the oral or intratracheal route, cats developed viremia viremia /vi·re·mia/ (vi-re´me-ah) the presence of viruses in the blood. vi·re·mi·a n. The presence of viruses in the bloodstream. ; virus spread into different tissues and was excreted in feces and saliva (7). High viral load and differences in virus strains could result in different host reactions. The reason for limited horizontal transmission in our study could be low-level virus shedding by the initially infected cats. Initial virus load, route of virus uptake, and the immune system of the cat may affect infection and disease. Otherwise, the lack of illness would be unusual because several cats in the study had immunodeficiencies caused by other infectious diseases (20,21). An asymptomatic infection confirmed by seroconversion is assumed for cats 1 and 4. The situation for cat 2 is not as clear. It is unlikely that the positive PCR result in the swab sample from cat 2 is due to contamination and is a false-positive result. Conversely, infection could not be confirmed by seroconversion. It remains unclear whether ongoing infection could be stopped (possibly by interferons) or whether the cat did not produce sufficient amount of antibodies. Little information is available on immune responses after infection with influenza virus H5N1 in cats. H5N1 virus can cross species barriers (22) and infect new hosts. Transmission from poultry to mammals, between cats (3,5,7,8), and between humans (23) indicates 2 routes of virus uptake under natural conditions. The first is orally by ingestion of raw poultry, and the second is transmission by contact with feces or saliva of infected animals. In our study, virus transmission from infected poultry to cats must have occurred from days 1 to 4. Uptake of H5N1 virus by ingestion of infected poultry can be ruled out. We observed only some cats entering the area where the birds were housed. Therefore, the most likely route of transmission for these cats is contagious fecal contamination of the hair and oral uptake during grooming. However, we cannot exclude aerosolization of the virus as a route of transmission. Until recently, the avian flu situations in Asia and Europe appeared to differ. In Asia, large numbers of poultry have been infected and culled. Human and feline cases are mainly associated with close contact with infected poultry or ingestion of contaminated meat that was not sufficiently cooked. In Europe, mainly wild aquatic birds were infected, and only a few turkey farms were affected by H5N1 infection. Because direct contact with poultry is more limited in Europe than in Asian countries and the main source of food for cats in Europe is either commercial cat food or wild rodents and small birds, virus uptake during hunting and ingestion of poultry and aquatic birds is unlikely. Large aquatic birds are normally not a major source of food for cats, although infected birds may have caused the deaths of 3 cats found on the island of Ruegen, Germany (4). We have shown that under natural conditions infection of cats with influenza virus H5N1 may occur after contact with infected birds or their excrement excrement /ex·cre·ment/ (eks´kri-mint) 1. feces. 2. excretion (2). ex·cre·ment n. Waste matter or any excretion cast out of the body, especially feces. without inducing clinical disease. However, horizontal transmission between cats was not observed, although infected cats had been introduced into a large cat population that had other viral and bacterial infections and lived under stressful conditions. Avian flu infection in cats is rarely documented and there is no evidence to date that cats are responsible for transmitting the virus to humans. Although this study does not rule out H5N1 infection leading to disease and possible transmission to other mammals and birds by domestic cats under natural conditions, without ingestion of infected birds, cats do not represent a major risk in the epidemiology of H5N1 influenza. The risk posed by cats could change because the virus can rapidly undergo genetic mutation and reassortment, and efforts should be made to minimize contact of domestic cats with infected birds. To have better insights into whether cats represent a potential risk in the epidemiology of H5N1 influenza, more detailed knowledge is needed about the role of viral load, virus uptake, and immune mechanisms of the host on the outcome of infection with H5N1 influenza virus. The study was supported by the Austrian Federal Ministry of Health and Women. References (1.) Yuen KY, Wong SSY SSY Simpson Spence Young (Hong Kong shipbrokers) SSY Siddha Samadhi Yoga SSY Scottish Socialist Youth . Human infection by avian influenza A H5N1. Hong Kong Med J. 2005;11:189-99. (2.) Vahlenkamp TW, Harder TC. Influenza virus infections in mammals. Berl Munch Tierarztl Wochenschr. 2006; 119:123-31. (3.) Rimmelzwaan GF, van Riel ri·el n. See Table at currency. [Origin unknown.] Noun 1. riel - the basic unit of money in Cambodia; equal to 100 sen D, Baars M, Bestebroer TM, van Amerongen G, Fouchier RAM, et al. Influenza A virus (H5N1) infection in cats causes systemic disease with potential novel routes of virus spread within and between hosts. Am J Pathol. 2006; 168:176-83. (4.) Wolf PU, Uhl W, Gerst S, Wolf C, Gerst K, Klopries M, et al. Letal verlaufende influenza bei hauskatzen nach nattirlicher infektion mit H5N1/Asia in Deutschland. Deutsches Tierarzteblatt. 2006;4:426-31. (5.) Songsermn T, Amonsin A, Jam-on R, Sae-Heng N, Meemak N, Pariyothorn N, et al. Avian influenza H5N1 in naturally infected domestic cat. Emerg Infect Dis. 2006;12:681-3. (6.) Keawcharoen J, Oraveerakul K, Kuiken T, Fouchier RA, Amonsin A, Payungporn S, et al. Avian influenza H5N1 in tigers and leopards. Emerg Infect Dis. 2004;10:2189-91. (7.) Kuiken T, Rimmelzwaan G, van Riel D, van Amerongen G, Baars M, Fouchier R, et al. Avian H5N1 influenza in cats. Science. 2004;306:241. (8.) Thanawongnuwech R, Amonsin A, Tantilertcharoen R, Damrongwatanapokin S, Theamboonlers A, Payungporn S, et al. Probable tiger-to-tiger transmission of avian influenza H5N1. Emerg Infect Dis. 2005;11:699-701. (9.) Kuiken T, Fouchier R, Rimmelzwaan G, Osterhaus A, Roeder P. Feline friend or potential foe? Nature. 2006;440:741-2. (10.) Specter S, Hodinka RL, Wiedbrank DL, Young SA. Diagnosis of viral infections. In: Richmen DD, Whitley RJ, Hayden FG, editors. Clinical virology virology, study of viruses and their role in disease. Many viruses, such as animal RNA viruses and viruses that infect bacteria, or bacteriophages, have become useful laboratory tools in genetic studies and in work on the cellular metabolic control of gene expression , 2nd ed. Washington: American Society for Microbiology The American Society for Microbiology (ASM) is a scientific organization, based in the United States although with over 43,000 members throughout the world. It is the largest single life science professional organization and its members include those whose interests encompass basic Press; 2002. p. 243-72. (11.) Spackman E, Senne DA, Bulaga LL, Myers TJ, Perdue Perdue may refer to:
(12.) Reubel GH, Ramos RA, Hickman MA, Rimstad E, Hoffmann DE, Pedersen NC. Detection of active and latent feline herpesvirus 1 infections using polymerase chain reaction polymerase chain reaction (pŏl`ĭmərās') (PCR), laboratory process in which a particular DNA segment from a mixture of DNA chains is rapidly replicated, producing a large, readily analyzed sample of a piece of DNA; the process is . Arch Virol. 1993;132:409-20. (13.) Stiles J, McDermott M, Bigsby D, Willis M, Martin C, Roberts W, et al. Use of nPCR to identify feline herpesvirus in ocular tissue from clinically normal cats and cats with corneal corneal pertaining to the cornea. See also keratitis, keratopathy. corneal anomaly includes microcornea, coloboma, megalocornea, dermoid, congenital opacity. corneal black body see corneal sequestrum (below). sequestra se·ques·tra n. Plural of sequestrum. or conjunctivitis conjunctivitis (kənjəngtəvī`təs), inflammation or infection of the mucosal membrane that covers the eyeball and lines the eyelid, usually acute, caused by a virus or, less often, by a bacillus, an allergic reaction, or an . Am J Vet Res. 1997;58:338-42. (14.) World Organization for Animal Health (OIE). Manual of diagnostic tests and vaccines for terrestrial animals (mammals, birds and bees), 5th ed. Paris: The Organization; 2004. p. 262-3. (15.) Mostl K. Nachweis von antikorpern gegen das virus der felinen infektiosen peritonitis peritonitis (pĕr'ĭtənī`tĭs), acute or chronic inflammation of the peritoneum, the membrane that lines the abdominal cavity and surrounds the internal organs. in katzenseren und peritonealexsudaten. Wiener Tierarzti Mschr. 1983;70:318-23. (16.) Jones RL. Laboratory diagnosis of bacterial infections. In: Greene CE, editor. Infectious diseases of the dog and cat. 3rd ed. Saint Louis (MO): Saunders Elsevier; 2006. p. 267-73. (17.) van Riel D, Munster VJ, de Wit E, Rimmelzwaan GF, Fouchier RA, Osterhaus AD, et al. H5N1 virus attachment to lower respiratory tract. Science. 2006;312:399. (18.) Zitzow LA, Rowe T, Morken T, Shieh WJ, Zaki S, Katz JM. Pathogenesis of avian influenza A (H5N1) viruses in ferrets. J Virol. 2002;76:4420-9. (19.) Bright RA, Cho DS, Rowe T, Katz JM. Mechanisms of pathogenicity of influenza A (H5N1) viruses in mice. Avian Dis. 2003;47:1131-4. (20.) Pedersen NC, Torten M, Rideout B, Sparger sparge tr.v. sparged, sparg·ing, sparg·es 1. To spray or sprinkle. 2. To introduce air or gas into (a liquid). n. A sprinkle. E, Tonachini T, Luciw PA, et al. Feline leukemia virus infection as a potentiating cofactor cofactor An atom, organic molecule, or molecular group that is necessary for the catalytic activity (see catalysis) of many enzymes. A cofactor may be tightly bound to the protein portion of an enzyme and thus be an integral part of its functional structure, or it may for the primary and secondary stages of experimentally induced feline immunodeficiency virus infection. J Virol. 1990;64:598-606. (21.) Good RA, Ogasawara M, Liu WT, Lorenz E, Day NK. Immunosupressive actions of retroviruses. Lymphology. 1990; 23:56-9. (22.) Kuiken T, Holmes EC, McCauley J, Rimmelzwaan GF, Williams CS, Grenfell BT. Host species barriers to influenza virus infections. Science. 2006;312:394-7. (23.) Ungchusak K, Auewarakul P, Dowell SF, Kitphati R, Auwanit W, Puthavathana P, et al. Probable person-to-person transmission of avian influenza A (H5N1). N Engl J Med. 2005;352:333-40. Address for correspondence: Michael Leschnik, Clinic of Internal Medicine and Infectious Diseases, Clinical Department of Small Animals and Horses, University of Veterinary Medicine, Veterinarplatz 1, A-1210 Vienna, Austria; email: michael.leschnik@vu-wien.ac.at Michael Leschnik, * Joachim Weikel, ([dagger]) Karin Mostl, * Sandra Revilla-Fernandez, ([dagger]) Eveline Wodak, ([dagger]) Zoltan Bago, ([dagger]) Elisabeth Vanek, ([dagger]) Viviane Benetka, * Michael Hess, * and Johann G. Thalhammer * * University of Veterinary Medicine, Vienna, Austria; and ([dagger]) Austrian Agency for Health and Food Safety Institute for Veterinary Disease Control, Modling, Austria Dr Leschnik is a veterinary staff member of the Clinic for Internal Medicine and Infectious Diseases, University of Veterinary Medicine, Vienna, Austria. His research interests include small animal neurology and infectious diseases.
Table. Time scale of sampling and course of influenza A virus H5N1
hemagglutinating antibody titer in cats 1, 2, and 4, Austria, 2006 *
No. pharyngeal No.
Day Timeline events swabs rectal swabs
1 H5N1 virus-
positive swan
dies
4 All poultry
culled (38),
13 positive
8 3 cats positive 40
15 All cats 34
negative
22 Quarantine 160 160
starts
29 Examination All cats (164) 164
under
anesthesia
36
50 Cats 1 and 4
humanely killed
for necropsy
No. H5N1
Day blood samples antibody titer
1
4
8
15
22 14 Cat 1, 64
Cat 2, negative
Cat 4, ND
29 164 Cat 1, 128
Cat 2, negative
Cat 4, 256
36 28 Cat 1, 128
Cat 2, negative
Cat 4, ND
50 All cats (155) Cat 1, 256
Cat 4, 256
* ND, not done.
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