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Effect of Pasteurella multocida toxin on physeal growth in young pigs.
1996
Ackermann M.R. | Register K.B. | Stabel J.R. | Gwaltney S.M. | Howe T.S. | Rimler R.B.
Effects of polymyxin B and Salmonella typhimurium antiserum on horses given endotoxin intravenously.
1994
Durando M.M. | MacKay R.J. | Linda S. | Skelley L.A.
Polymyxin B and an antiserum against an Re mutant Salmonella typhimurium were evaluated for protective effect in an equine model of endotoxemia. Six 3- to 5-month-old foals were given endotoxin (0.25 micrograms/kg of body weight) IV after no pretreatment, or pretreatment with polymyxin B (6,000 U/kg, IV) or S typhimurium antiserum (1.5 ml/kg, IV). When given without pretreatment, endotoxin caused transient recumbency and increases in rectal temperature, and heart and respiratory rates. In addition, leukopenia and increases in circulating tumor necrosis factor (TNF) and interleukin 6 (IL-6) activities were detected. Compared with results obtained when endotoxin was given alone, pretreatment with polymyxin B resulted in significantly (P < 0.05) lower maximal plasma TNF and IL-6 activities, and significantly lower rectal temperature and respiratory rate. In contrast, compared with effects of endotoxin given without pretreatment, use of antiserum was associated with significantly (P < 0.05) higher respiratory rate, maximal plasma IL-6 activity, and total TNF response (as determined by areas under curves of plasma TNF vs time). These results indicate that polymyxin B may have potential as a treatment for equine endotoxemia. Salmonella typhimurium antiserum had no positive effect in this model, and, under certain conditions, may exacerbate the actions of endotoxin.
Show more [+] Less [-]Neutralization of African swine fever virus by sera from African swine fever-resistant pigs.
1986
Ruiz Gonzalvo F. | Caballero C. | Martinez J. | Carnero M.E.
Specific antigens of Chlamydia pecorum and their homologues in C psittaci and C trachomatis.
1996
Baghian A. | Kousoulas K. | Truax R. | Storz J.
Reactivity of polyclonal human CD3 antiserum in lymphoid tissues of cattle, sheep, goats, rats and mice.
1994
Ramos Vara J.A. | Miller M.A. | Lopez E. | Prats N. | Brevik L.
Polyclonal rabbit antiserum to human T-cell CD3 was used to study its reactivity in lymphoid tissues (lymph nodes, spleen, aggregated lymphoid follicles [Peyer's patches], thymus) of several animal species (cattle, sheep, goats, rats, and mice). Using a peroxidase-antiperoxidase technique on formalin-fixed and paraffin-embedded tissues, immunoreactive cells were detected in T cell-dependent areas of the lymphoid tissues. Reactivity was high in all species tested, but mouse tissues had reduced reactivity, compared with the other species. To obtain a reaction, it was necessary to digest tissues with pronase before application of the immunocytochemical technique. Our results indicate that CD3 antiserum may specifically recognize T-lymphoid cells as it does in human lymphoid tissues and can be used as a marker to study physiologic and pathologic conditions of the lymphoid system of these species.
Show more [+] Less [-]PMSG profiles in superovulated and anti-PMSG antiserum treated mice and heifers with enzymeimmunossay.
1991
Katagiri S. | Takahashi Y. | Hishinuma M. | Kanagawa H. | Dochi O. | Takakura H.
Evaluation of the specificity of Pasteurella multocida somatic antigen-typing antisera prepared in chickens, using ribosome-lipopolysaccharide complexes as inocula.
1989
Rimler R.B. | Angus R.D. | Phillips M.
Purified lipopolysaccharides (LPS) from 16 serotypes of Pasteurella multocida were complexed with Aspergillus fumigatus ribosomes. The complexes were used as inocula to prepare antisera, in chickens, for somatic antigen typing by the gel diffusion precipitin test (GDPT). Antisera made against 15 of 16 LPS reacted with their respective specific heat-stable antigens in the GDPT and homologous LPS in the passive hemagglutination test. Antisera could not be made against serotype 15 LPS. Correlation was not observed between intensity of the precipitin reaction in the GDPT and titer to homologous LPS in the passive hemagglutination test. Most antisera cross-related with other heat-stable antigens of other serotypes in the GDPT. Many of these cross-reactions were eliminated by dilution. Cross-reactions that occurred in the GDPT with antisera made against LPS of serotypes 2, 5, 7 and 8 could not be eliminated by dilution.
Show more [+] Less [-]Endotoxin-induced changes in plasma concentrations of thromboxane and prostacyclin in neonatal calves given antiserum to a mutant Escherichia coli (J-5).
1986
Morris D.D. | Bottoms G.D. | Whitlock R.H. | Johnson M.A.
Immunohistochemical identification of Newcastle disease virus with indirect immunoperoxidase technique.
1990
Nho W.G. | Sur J.H. | Kim S.B.
Isolation of Getah virus from racehorse in Korea.
1991
Lyoo Y.S. | Chang C.H. | Rhee J.C. | Kim Y.J. | Lee S.Y.