Progressive paraparesis developed in four male English Springer Spaniel pups from a litter of five during the first 10 weeks of life. Two of the pups, which had the earliest onset of neurologic signs, were euthanatized without further workup. However, a detailed investigation was completed on the remaining two littermates at 12 weeks of age. Both pups had progressive paraparesis for 3 to 4 weeks before presentation, with one dog developing subsequent asymmetric pelvic limb extensor rigidity. Based on results from neurologic examination, cerebrospinal fluid (CSF) analysis, electrophysiology, and muscle/ nerve biopsy, a presumptive diagnosis of protozoal polyradiculitis and polymyositis was made. Necropsy of the most severely affected pup confirmed the clinical diagnosis of inflammatory nerve root and muscle disease but no organisms were found. To increase the potential yield of organisms, the second pup was placed on immunosuppressive doses of corticosteroids and euthanatized 2 weeks later. Numerous organisms were found in lesions in muscle and the central nervous system. Organisms grew in tissue culture and were isolated from the peritoneal fluid of gerbils inoculated with infected tissue. Organisms were not isolated from inoculated mice, guinea pigs, rabbits, and hamsters. No parasites were seen in feces or tissues of three cats fed infected dog tissues. Serologic testing demonstrated a strong positive titer to Neospora caninurn in both pups, and electron microscopy showed the characteristic morphology of this parasite. (Journal of Veterinary Internal Medicine 1992; 6:325-332) NEOSPOROSIS is a recently recognized protozoan infection of dogs and other mammals.',2 The causative protozoa, Neospora caninurn, was first recognized as a new species in 1988. Diagnostic tests to distinguish N.
The cellular responses of 8 kittens (4 inoculated orally with mouse brains containing Toxoplasma gondii cysts and 4 uninfected controls) were studied. Oocyst numbers, body weight, and rectal temperature were monitored daily. Blood was collected weekly for serology and mononuclear cell purification. At necropsy, peritoneal and alveolar macrophages, spleen, and lymph node cells were harvested. Infected cats shed oocysts 4-15 days postinfection, maintained normal body weight and rectal temperature, and developed anti-T. gondii immunoglobulin M and G. Infected cats had normal surface immunoglobulin-positive cell populations and peripheral blood lymphocyte functions. The infected cats differed in their responses from control cats in that they developed circulating T. gondii antigen-specific lymphocytes, had increased interleukin 1 secretion by monocytes, had spleen and lymph node cells with depressed mitogenic responses and interleukin 2 production, and had macrophages with enhanced abilities in preventing the intracellular proliferation of T. gondii. Overall, the primary response of the cat to an infection with T. gondii appeared similar to that of other hosts.
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