Three series of trials involving 10 domestic short-haired cats were carried out to determine the influence of dosage of contrast media or type of chemical restraint on feline excretory urography. The 1st series (group A) involved 5 cats sedated with 2.0 mg/kg intramuscular (i.m) injection of 2% xylazine and receiving 800 mg/kg of 76 % meglumine diatrizoate (urografin). The 2nd series (group B) involved another 5 cats sedated with 2.0 mg/kg (i.m) injection of 2% xylazine and receiving 1200 mg/kg of 76% urografin. The 3rd series (group C) involved the repeat urography of the group B cats but sedated with 15 mg/kg (i.m) injection of 5% ketamine hydrochloride. Ventrodorsal radiographs were obtained immediately, 5, 15 and 40 minutes after the injection of 76% urografin. Scores were assigned to nephrographic opacification as described in the literature. The heart rates, respiratory rates and rectal temperatures of the cats were also determined before sedation, after sedation, immediately after the injection of 76% urografin and at 15-minute intervals over a period of 60 minutes. In this study, there were significant differences (P < 0.05) in the nephrographic opacification scores between the group A and group B cats at times 0 and 40 minutes post-administration of urografin. Group A cats had good initial nephrographic opacification which faded later while the nephrographic opacification of group B cats progressively increased. Similarly, nephrographic opacification was significantly (P < 0.05) higher in the xylazine-sedated cats (groups A and B) than the ketamine-sedated cats (group C). However, there were no significant differences (P > 0.05) in heart rates, respiratory rates and rectal temperatures between the 3 groups of cats. It was therefore concluded that increasing the dosage of urografin above 800 mg/kg in cats does not provide additional beneficial effects on the nephrograms produced. Xylazine sedation was observed to produce better nephrographic opacification, however, with delayed nephrographic fading compared to ketamine sedation. 相似文献
Rabies isolates (genotype 1 lyssaviruses) from vaccinated dogs that died of rabies infection in the Plateau area of Nigeria were characterized using monoclonal antibodies (MAbs). The isolates were examined for rabies (genotype 1) and rabies-related (genotypes 2, 3 and 4) viruses by the indirect fluorescent antibody test carried out with MAb 502-2, which recognizes the nucleocapsid protein of all known lyssaviruses, and with MAb 422-5, which identifies only rabies-related viruses. All three isolates showed positive immunofluorescence with MAb 502-2 and were negative with MAb 422-5, indicating that they were all rabies (genotype 1) viruses.Characterization with a panel of 36 anti-nucleocapsid monoclonal antibodies showed that all three isolates reacted positively with 35 of the anti-nucleocapsid MAbs, including MAb 102-27 and MAb 377-7. Characterization using a panel of 44 anti-glycoprotein MAbs differentiated the isolates sharply from LEP Flury and PM vaccine viruses. The pattern of anti-glycoprotein reactivity of the isolates showed them to belong to one distinct viral subtype, except for a minor variation in one isolate that was not neutralized by MAb 1101-3. None of the three isolates was identified as the Flury low egg passage (LEP) vaccine strain used for vaccinating dogs in Nigeria. In fact, all the three isolates had the typical pattern of reactivity of isolates from unvaccinated dogs, including MASS 83, a rabies virus isolated in Nigeria and characterized at the Wister Institute before this study. 相似文献
Run-off from industrial and agricultural activities has continued to be a major source of organohalogenated contaminants (OHCs) in the environment. Swartkops (SWE) and Sundays Estuaries (SDE) located in the city of Port Elizabeth, South Africa, were selected for this study because of their proximity to industrial and agricultural activities.
Materials and methods
In this study, we determined the levels, seasonal occurrence as well as the ecological risk monitoring of 18 organochlorine pesticides (OCPs), 17 polychlorinated biphenyls (PCBs) and six polybrominated diphenyl ethers (PBDEs) in the sediments of SWE and SDE using a gas chromatograph coupled with a micro electron capture detector.
Results and discussion
HCHs, BDE-17, tri- and tetra-CBs dominated the OHC profiles in sediments of both estuaries. The respective concentration ranges of OCPs, PCBs and PBDEs in SDE sediment were 0.06–0.93 μg g?1 dw, 0.08–1.71 μg g?1 dw and 0.08–32.41 ng g?1 dw while that of SWE in that order were 0.10–4.70 μg g?1 dw, 0.07–3.80 μg g?1 dw and 0.11–130.21 ng g?1 dw. The high concentrations of OHCs in SWE may be due to the high usage of its surrounding area for industrial activities. The concentrations of all OHCs with exception of PCBs were higher in spring for both estuaries probably due to the heavy rain experienced during spring season. Cluster analysis and spatial distribution of OHCs indicated that samples around the Motherwell Canal in the SWE were more polluted. Total organic carbon (TOC) was strongly correlated with most OHCs in SWE revealing that TOC controls the sorption of OHCs in this estuary. Risk analysis showed that most sampling points had PCBs and HCHs concentration greater than their respective sediment quality guideline (SQGL) indicating a high risk to benthic species in SDE and SWE.
Conclusions
Samples collected from the SWE were more polluted than those collected from the SDE probably due to the extensive use of the catchment of SWE for industrial activities. In comparison with SQGL, most sampling points had PCBs and HCHs concentrations greater than their respective ERL and TEL values, indicating the potential risk to biota in SDE and SWE. Thus, an urgent need to manage and mitigate the OHCs concentrations in these estuaries is recommended.
