Browsing by Author "Saleh, Meriam N."
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- Comparison of diagnostic techniques for detection of Giardia duodenalis in dogs and catsSaleh, Meriam N.; Heptinstall, Jack R.; Johnson, Eileen M.; Ballweber, Lora R.; Lindsay, David S.; Werre, Stephen R.; Herbein, Joel F.; Zajac, Anne M. (American College of Veterinary Internal Medicine, 2019-05)Background An evaluation of currently available in-clinic diagnostic tests for Giardia duodenalis infection of dogs and cats has not been performed. In addition, there is discordance among published diagnostic comparisons. The absence of a true gold standard for detecting Giardia duodenalis also complicates diagnostic evaluations. Objectives To evaluate diagnostic tests commercially available in the United States for detecting Giardia duodenalis in dogs and cats, in comparison to a widely used reference test, the direct immunofluorescent assay (IFA), and also to compare the results of 2 methods of analysis: comparison of diagnostic tests to a reference test (IFA) and Bayesian analysis. Animals Fecal samples from a convenience sample of 388 cats and dogs located in Colorado, Oklahoma, and Virginia. Methods Fecal samples were tested for Giardia duodenalis by zinc sulfate centrifugal fecal flotation and 4 different commercial diagnostic immunoassays. Results were analyzed via Bayesian analysis and by comparison to the IFA as the reference test. Results Sensitivity and specificity by comparison to IFA was >= 82% and >= 90%, respectively, for all diagnostic tests in dogs and cats. When analyzed via Bayesian analysis, sensitivity and specificity were >= 83% and >= 95%, respectively. When ZnSO4 centrifugal fecal flotation results were combined with immunoassay results, there was no longer a significant difference between the sensitivities of the commercial in-clinic immunoassays. Conclusion and Clinical Relevance The Bayesian analysis validates using IFA as the reference test. Differences in commercial in-clinic immunoassay sensitivities can be mitigated when the results are combined with ZnSO4 centrifugal fecal flotation results.
- Multistate Infestation with the Exotic Disease-Vector Tick Haemaphysalis longicornis - United States, August 2017-September 2018Ben Beard, C.; Occi, James; Bonilla, Denise L.; Egizi, Andrea M.; Fonseca, Dina M.; Mertins, James W.; Backenson, Bryon P.; Bajwa, Waheed I.; Barbarin, Alexis M.; Bertone, Matthew A.; Brown, Justin; Connally, Neeta P.; Connell, Nancy D.; Eisen, Rebecca J.; Falco, Richard C.; James, Angela M.; Krell, Rayda K.; Lahmers, Kevin K.; Lewis, Nicole; Little, Susan E.; Neault, Michael; de Leon, Adalberto A. Perez; Randall, Adam R.; Ruder, Mark G.; Saleh, Meriam N.; Schappach, Brittany L.; Schroeder, Betsy A.; Seraphin, Leslie L.; Wehtje, Morgan; Wormser, Gary P.; Yabsley, Michael J.; Halperin, William (Centers for Disease Control and Prevention, 2018-11-30)Haemaphysalis longicornis is a tick indigenous to eastern Asia and an important vector of human and animal disease agents, resulting in such outcomes as human hemorrhagic fever and reduction of production in dairy cattle by 25%. H. longicornis was discovered on a sheep in New Jersey in August 2017 (1). This was the first detection in the United States outside of quarantine. In the spring of 2018, the tick was again detected at the index site, and later, in other counties in New Jersey, in seven other states in the eastern United States, and in Arkansas. The hosts included six species of domestic animals, six species of wildlife, and humans. To forestall adverse consequences in humans, pets, livestock, and wildlife, several critical actions are indicated, including expanded surveillance to determine the evolving distribution of H. longicornis, detection of pathogens that H. longicornis currently harbors, determination of the capacity of H. longicornis to serve as a vector for a range of potential pathogens, and evaluation of effective agents and methods for the control of H. longicornis.