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Peer-reviewed veterinary case report

Tests to detect Tritrichomonas infection causing diarrhea in cats

By Dąbrowska, Joanna et al.·Published in Veterinary parasitology·2019·Department of Parasitology and Invasive Diseases·View original on PubMed

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Original publication title: Development and comparative evaluation of different LAMP and PCR assays for coprological diagnosis of feline tritrichomonosis.

Species:
cat

Plain-English summary

A cat with severe diarrhea was tested for a parasite called Tritrichomonas foetus, which can cause this condition. Researchers compared different testing methods to see which was best at detecting the parasite in fecal samples. They found that a new real-time PCR test was the most effective, accurately identifying the parasite even in very small amounts. Both new and old LAMP tests also performed well, making them useful for diagnosing this infection without needing complex lab equipment. These findings can help veterinarians better diagnose and treat cats suffering from this type of diarrhea.

People also search for: cat diarrhea causes · Tritrichomonas foetus treatment · best tests for cat diarrhea

Abstract

The protozoan parasite Tritrichomonas foetus may cause severe diarrhea in cats all over the world. In order to evaluate the methodology in coprological molecular diagnosis of feline tritrichomonosis, we compared previously published ("old") and newly developed ("novel") loop-mediated isothermal amplification (LAMP) (targeted to the T. foetus &#x3b2;-tubulin and the elf1&#x3b1; 1 gene, respectively) as well as an old conventional and an old and novel real-time PCR (all targeted to overlapping regions of T. foetus rDNA) assays regarding their diagnostic sensitivities and specificities. Here, the novel real-time PCR yielded the best methodical performance in that a sensitivity with a detection limit of <0.1 trophozoites (corresponding to ca.<0.13 trophozoites per mg feces) and a maximal specificity for diagnosis of Tritrichomonas spp. was achieved. The other test systems exhibited either an approximately 10-times lower sensitivity (<1 trophozoite corresponding to ca.<1.3 trophozoites per mg feces) (conventional PCR and both LAMP assays) or a lower specificity (old real-time PCR). Conversely, the diagnostic performance assessed with clinical fecal samples from cats demonstrated identical sensitivities (8 of 20 samples tested were positive) for the novel PCR and both LAMP assays. Diagnostic sensitivities were significantly higher than those found for the old real-time (5 positive samples) and conventional PCR (6 positive samples), respectively. Accordingly, our data suggested the novel PCR and both LAMP assays to be well suited molecular tools for direct (i.e. without including an in vitro cultivation step) coprological diagnosis of tritrichomonosis in cats. Interestingly, relative high (novel LAMP, 7 positive samples) to at least moderate (old LAMP, 6 positive samples and 1 sample with equivocal score) diagnostic sensitivities were also achieved by testing clinical samples upon simple visual inspection of colorimetric changes during the LAMP amplification reactions. Accordingly, both LAMP assays may serve as practical molecular tools to perform epidemiological studies on feline (and bovine as well as porcine) tritrichomonosis under simple laboratory conditions.

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Original publication on PubMed: https://pubmed.ncbi.nlm.nih.gov/31442888/