ABSTRACT
Post-weaning multisystemic wasting syndrome (PMWS) is a recently identified condition affecting pigs in North America and Europe. Porcine circovirus antigen and nucleic acid have been demonstrated associated with lesions, and a new porcine circovirus designated PCV2 has been recovered from tissues of these animals. In this study, in situ hybridisation and immunohistochemical protocols were developed, optimized and compared for their relative sensitivity in detecting PCV2 antigens and nucleic acid in tissues from cases of PMWS that had been fixed for up to 6 months in formalin. For both immunohistochemistry and in situ hybridization, an increase in specific signal was observed following increased exposure to both protease XIV and proteinase K. Maximum signal and minimal loss of tissue morphology was seen after 40 min treatment with protease XIV (0.5 mg/ml). After optimisation, a comparison of these techniques on sequential sections demonstrated that both techniques successfully detected antigen or nucleic acid in all of the tissues examined. More positive cells, with increased signal intensity, were detected following immunohistochemistry.
Subject(s)
Circoviridae Infections/veterinary , Circovirus/isolation & purification , Immunohistochemistry/methods , In Situ Hybridization/veterinary , Wasting Syndrome/veterinary , Animals , Circoviridae Infections/pathology , Circoviridae Infections/virology , Circovirus/genetics , DNA, Viral/isolation & purification , Formaldehyde/metabolism , Kidney Cortex/metabolism , Kidney Cortex/virology , Liver/metabolism , Liver/virology , Lung/metabolism , Lung/virology , Lymph Nodes/metabolism , Lymph Nodes/virology , Pancreas/metabolism , Pancreas/virology , Swine , Tissue Fixation/veterinary , Wasting Syndrome/pathology , Wasting Syndrome/virology , WeaningABSTRACT
Samples of lung, liver, kidney, pancreas, spleen, and lymph node from pigs with postweaning multisystemic wasting syndrome from California (USA) and samples of mesenteric lymph nodes from similarly diseased pigs from Brittany (France) were examined by light microscopy, in situ hybridization (ISH), and/or virus isolation. Whole genomic probes for porcine circovirus (PCV) and chicken anemia virus (CAV) were used for ISH. Tissue homogenate supernatants were inoculated onto PK/15 cells for virus isolation, and the presence of viral antigen and viral particles was verified by indirect immunofluorescence, ISH, and electron microscopy. Histologic examination of lung from pigs from California revealed interstitial pneumonia, alveolar epithelial hyperplasia, and basophilic nuclear and cytoplasmic inclusions in mononuclear cell infiltrates and various pulmonary epithelial cells. Granulomatous lymphadenitis with syncytial cells typified the lesions seen in the pigs from France. PCV-like nucleic acid was detected by ISH in lung, pancreas, lymph node, kidney, and liver in pigs from California. Positive signal was also obtained in lymph node sections from pigs from France. Probes for CAV were consistently negative. PK/15 cell cultures inoculated with lung preparations from diseased California pigs and mesenteric lymph node preparations from pigs from France had positive fluorescence by indirect staining for PCV using pooled polyclonal pig sera and hyperimmune rabbit serum and had variable staining with a panel of 7 monoclonal antibodies specific for cell culture contaminant PCV. PCV-like nucleic acid was also detected by ISH in cell cultures. Cytopathic effect was not observed. Electron microscopic examination of inoculated cell cultures revealed 17-nm viral particles morphologically consistent with PCV. No other virus particles were observed. Although genomic analysis for the definitive identification of these viral isolates remains to be done, the evidence provided strongly suggests that these tissue isolates are closely related to, although antigenically distinct from, the original PCV cell culture contaminant.
Subject(s)
Circoviridae Infections/veterinary , Circovirus/isolation & purification , Swine Diseases , Swine/virology , Wasting Syndrome/veterinary , Animals , California , Circoviridae Infections/pathology , Circoviridae Infections/physiopathology , Circovirus/ultrastructure , France , Kidney/pathology , Kidney/virology , Liver/pathology , Liver/virology , Lung/pathology , Lung/virology , Lymph Nodes/pathology , Lymph Nodes/virology , Pancreas/pathology , Pancreas/virology , Rabbits , Spleen/pathology , Spleen/virology , Wasting Syndrome/pathology , Wasting Syndrome/virologyABSTRACT
Doping can improve or impair performance and can be done either deliberately or accidentally. Accidental doping to win is the offence which most concerns the veterinary surgeon. The distinction between legitimate therapy and assisting an unfit horse to win a race by giving it a drug is a fine one. General guidelines are presented for the veterinary surgeon in practice.
Subject(s)
Drug Therapy/veterinary , Horses/metabolism , Acepromazine/urine , Animals , Procaine/urineSubject(s)
Horses , Pharmaceutical Preparations , Animals , England , History of Medicine , United StatesSubject(s)
Poisoning/veterinary , Animals , Bird Diseases/chemically induced , Canaries , Carbon Monoxide Poisoning/veterinary , Cat Diseases/chemically induced , Cats , Cattle , Cattle Diseases/chemically induced , Cricetinae , Dog Diseases/chemically induced , Dogs , Female , Guinea Pigs , Horse Diseases/chemically induced , Horses , Male , Mice , Plant Poisoning/veterinary , Rabbits , Rats , Sheep , Sheep Diseases/chemically induced , Species Specificity , Swine , Swine Diseases/chemically inducedSubject(s)
Lead Poisoning/veterinary , Animals , Autopsy , Calcium, Dietary/therapeutic use , Cat Diseases , Cats , Dog Diseases , Dogs , Edetic Acid/therapeutic use , Feces/metabolism , Heme/biosynthesis , History, 19th Century , History, 20th Century , Intestinal Absorption , Lead/metabolism , Lead/urine , Lead Poisoning/blood , Lead Poisoning/drug therapy , Lead Poisoning/enzymology , Lead Poisoning/etiology , Lead Poisoning/history , Lead Poisoning/metabolism , Lead Poisoning/pathology , Levulinic Acids/metabolism , Porphobilinogen Synthase/metabolism , Vitamin D/therapeutic useSubject(s)
Animal Feed , Caproates/toxicity , Food Preservation , Animals , Benzoates/toxicity , Cats , Male , MeatABSTRACT
Equipment costing only a few pounds can be used to detect a wide range of drugs in urine by anyone with a minimum of scientific knowledge. A run of tests takes about half an hour to perform and cost about 10p.