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Peer-reviewed veterinary case report

Detecting spike gene mutations to diagnose feline infectious

By Felten, Sandra et al.·Published in Journal of feline medicine and surgery·2017·1 Clinic of Small Animal Medicine, Germany·View original on PubMed

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Original publication title: Detection of feline coronavirus spike gene mutations as a tool to diagnose feline infectious peritonitis.

Species:
cat

Plain-English summary

A group of cats suspected of having feline infectious peritonitis (FIP) were tested for the virus using a new method that combines a specific type of genetic testing (RT-nPCR) and sequencing. The tests showed that while a positive result strongly suggests FIP, the method was not perfect; it only identified the virus in about 6.5% of blood samples but in 65.3% of fluid samples from the abdomen. This means that if a cat tests negative, it doesn't necessarily mean they don't have FIP, especially if only blood samples were taken. More research is needed to improve the accuracy of these tests for diagnosing FIP in cats.

Abstract

Objectives Feline infectious peritonitis (FIP) is an important cause of death in the cat population worldwide. The ante-mortem diagnosis of FIP in clinical cases is still challenging. In cats without effusion, a definitive diagnosis can only be achieved post mortem or with invasive methods. The aim of this study was to evaluate the use of a combined reverse transcriptase nested polymerase chain reaction (RT-nPCR) and sequencing approach in the diagnosis of FIP, detecting mutations at two different nucleotide positions within the spike (S) gene. Methods The study population consisted of 64 cats with confirmed FIP and 63 cats in which FIP was initially suspected due to similar clinical or laboratory signs, but that were definitively diagnosed with another disease. Serum/plasma and/or effusion samples of these cats were examined for feline coronavirus (FCoV) RNA by RT-nPCR and, if positive, PCR products were sequenced for nucleotide transitions within the S gene. Results Specificity of RT-nPCR was 100% in all materials (95% confidence interval [CI] in serum/plasma 83.9-100.0; 95% CI in effusion 93.0-100.0). The specificity of the sequencing step could not be determined as none of the cats of the control group tested positive for FCoV RNA. Sensitivity of the 'combined RT-nPCR and sequencing approach' was 6.5% (95% CI 0.8-21.4) in serum/plasma and 65.3% (95% CI 50.4-78.3) in effusion. Conclusions and relevance A positive result is highly indicative of the presence of FIP, but as none of the control cats tested positive by RT-nPCR, it was not possible to confirm that the FCoV mutant described can only be found in cats with FIP. Further studies are necessary to evaluate the usefulness of the sequencing step including FCoV-RNA-positive cats with and without FIP. A negative result cannot be used to exclude the disease, especially when only serum/plasma samples are available.

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Original publication on PubMed: https://pubmed.ncbi.nlm.nih.gov/26701958/