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Peer-reviewed veterinary case report

Limits of spike gene mutation tests for diagnosing feline infectious

By Barker, Emily N et al.·Published in Veterinary research·2017·School of Veterinary Sciences, United Kingdom·View original on PubMed

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Original publication title: Limitations of using feline coronavirus spike protein gene mutations to diagnose feline infectious peritonitis.

Species:
cat

Plain-English summary

A group of cats suspected of having feline infectious peritonitis (FIP) were tested for a specific mutation in the feline coronavirus (FCoV) that is linked to the disease. Researchers found that while the mutation was more common in cats with FIP, it did not significantly improve the accuracy of diagnosing the disease compared to just detecting the virus itself. In fact, using the mutation analysis actually reduced the sensitivity of the tests for diagnosing FIP. This means that relying on this mutation may not be the best approach for diagnosing FIP in cats.

People also search for: cat FIP symptoms · feline coronavirus testing · how to diagnose FIP in cats

Abstract

Feline infectious peritonitis (FIP) is a fatal disease of cats, and a sequela of systemic feline coronavirus (FCoV) infection. Mutations in the viral spike (S) gene have been associated with FCoVs found in tissues from cats with FIP, but not FCoVs found in faeces from healthy cats, and are implicated in monocyte/macrophage tropism and systemic spread. This study was designed to determine whether S gene mutation analysis can reliably diagnose FIP. Cats were categorised as with FIP (n = 57) or without FIP (n = 45) based on gross post-mortem and histopathological examination including immunohistochemistry for FCoV antigen. RNA was purified from available tissue, fluid and faeces. Reverse-transcriptase quantitative-PCR (RT-qPCR) was performed on all samples using FCoV-specific primers, followed by sequencing of a section of the S gene on RT-qPCR positive samples. Samples were available from a total of 102 cats. Tissue, fluid, and faecal samples from cats with FIP were more likely to be FCoV RT-qPCR-positive (90.4, 78.4 and 64.6% respectively) than those from cats without FIP (7.8, 2.1 and 20% respectively). Identification of S gene mutated FCoVs as an additional step to the detection of FCoV alone, only moderately increased specificity for tissue samples (from 92.6 to 94.6%) but specificity was unchanged for fluid samples (97.9%) for FIP diagnosis; however, sensitivity was markedly decreased for tissue (from 89.8 to 80.9%) and fluid samples (from 78.4 to 60%) for FIP diagnosis. These findings demonstrate that S gene mutation analysis in FCoVs does not substantially improve the ability to diagnose FIP as compared to detection of FCoV alone.

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Original publication on PubMed: https://pubmed.ncbi.nlm.nih.gov/28982390/