Peer-reviewed veterinary case report
Rapid test for different feline leukemia infections in cats
By Westman, Mark E et al.·Published in Viruses·2023·Sydney School of Veterinary Science, Australia·View original on PubMed →
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Original publication title: Field Performance of a Rapid Test to Detect Progressive, Regressive, and Abortive Feline Leukemia Virus Infections in Domestic Cats in Australia and Germany.
- Species:
- cat
Plain-English summary
A group of domestic cats in Australia and Germany were tested for feline leukemia virus (FeLV) infections using a new rapid test kit. The test aimed to identify different types of FeLV infections, but it struggled to accurately detect regressive and abortive infections, only correctly identifying a small number of these cases. While it performed well in identifying unexposed and progressive infections, it failed to provide reliable results for other types. Overall, the test needs improvements before it can be effectively used in real-world situations.
People also search for: cat leukemia test accuracy · feline leukemia virus symptoms · rapid test for cat diseases
Abstract
Different feline leukemia virus (FeLV) infection outcomes are possible in cats following natural exposure, such as progressive infections (persistent viremia), regressive infections (transient or no viremia followed by proviral persistence) and abortive infections (presence of only antibodies). Laboratory-based testing is currently required for categorization of infection outcomes in cats. The aim of this study was to evaluate the field performance of a novel, rapid, combination point-of-care (PoC) test kit commercially available in Europe (v-RetroFelAg/Ab; 2020-2021 version) to determine different FeLV infection outcomes by concurrent detection of FeLV antigen (p27) and antibodies against FeLV transmembrane envelope protein (p15E). A secondary aim was to evaluate the performance of the same test kit (v-RetroFelFIV) to determine positive/negative feline immunodeficiency virus (FIV) infection status by the detection of antibodies to FIV capsid protein (p24) and transmembrane glycoprotein (gp40). Two cohorts of domestic cats were recruited and tested with v-RetroFelusing plasma or serum, including cats in Australia (= 200) and cats in Germany (= 170). Results from p27 antigen PoC testing, proviral DNA PCR, and neutralizing antibody testing or testing for antibodies against non-glycosylated surface unit envelope protein (p45) were used to assign cats to groups according to different FeLV infection outcomes. Testing with a laboratory-based FeLV p15E antibody ELISA was also performed for comparison. In the first cohort, v-RetroFelAg/Ab correctly identified 89% (109/122) FeLV-unexposed cats and 91% (21/23) progressive infections, but no regressive (0/23) or abortive (0/32) infections. In the second cohort, v-RetroFelAg/Ab correctly identified 94% (148/158) FeLV-unexposed cats and 100% (4/4) progressive infections, but no regressive (0/2) and only 17% (1/6) abortive infections. There was test agreement between v-RetroFelAb and the p15E laboratory ELISA in 58.9% of samples. As a secondary outcome of this study, the sensitivity and specificity of v-RetroFelFIV testing in cohort 1 were 94.7% (18/19) and 98.3% (178/181), and in cohort 2, 30.0% (3/10) and 100.0% (160/160), respectively. Prior history of FIV vaccination did not produce any false-positive FIV results. In conclusion, v-RetroFelAg/Ab (2020-2021 version) was unable to accurately determine different FeLV infection outcomes in the field. Improvements of the test prior to application to field samples are required.
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Search related cases →Original publication on PubMed: https://pubmed.ncbi.nlm.nih.gov/36851705/