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Peer-reviewed veterinary case report

Masticatory muscle MRI changes in dogs with MUO versus neosporosis

By Zilli, Jessica et al.·Published in Frontiers in veterinary science·2024·Anderson Moores Veterinary Specialists, United Kingdom·View original on PubMed

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Original publication title: Masticatory muscle changes on magnetic resonance imaging of dogs withcompared to meningoencephalitis of unknown origin.

Species:
dog

Plain-English summary

A dog diagnosed with meningoencephalitis (inflammation of the brain and its surrounding tissues) underwent an MRI, which revealed changes in the masticatory muscles (the muscles used for chewing). This study found that dogs with a specific infection called neosporosis showed more significant muscle changes compared to those with meningoencephalitis of unknown origin. In fact, 27% of the dogs with neosporosis had noticeable muscle changes, while only 4% of the other group did. Recognizing these muscle changes can help veterinarians start the right treatment sooner, especially since neosporosis requires antimicrobial therapy.

People also search for: dog meningoencephalitis symptoms · neosporosis treatment in dogs · MRI changes in dog brain disease

Abstract

Infectious meningoencephalitides represent an important differential diagnosis for meningoencephalitis of unknown origin (MUO) in dogs. Treatment of the latter requires immunosuppression, but laboratory test results for infectious agents may take several days to return. This study investigated whether the presence of masticatory muscle changes on magnetic resonance imaging (MRI) of the head can be used to distinguish dogs with neosporosis from those with MUO at the time of diagnosis. Cases diagnosed with neosporosis or MUO at two referral centers in the United Kingdom (UK) were retrospectively collected. Clinical data were reviewed, and each MRI study was blindly assessed by a radiologist, a neurologist, and a neurology resident for the presence of masticatory muscle changes by consensus opinion. Statistical analysis was performed on obtained data. Twenty-two neosporosis cases and 23 MUO cases were enrolled. In the neosporosis group, six dogs (27%) had masticatory muscle changes, compared to one dog (4%) in the MUO group ( = 0.047). All six neosporosis cases had bilateral, multifocal, T2W and FLAIR hyperintense, contrast enhancing muscular changes, with three having concurrent masticatory muscle atrophy. The only MUO case with muscle changes had a mild, focal, unilateral temporal muscle lesion which was only visible in the T1W post-contrast images. Within the neosporosis group, dogs with masticatory muscle lesions had significantly higher cerebrospinal fluid WBC counts ( = 0.017) and protein concentrations ( = 0.025) compared to those without muscle changes. In conclusion, characteristic bilateral, multifocal masticatory muscle changes should raise the index of suspicion for neosporosis in dogs with an imaging diagnosis of meningoencephalitis and starting early antimicrobial treatment is recommended. However, the absence of masticatory muscle abnormalities does not exclude activeinfection. In these cases, whether immunosuppressive or antimicrobial treatments are started prior to receiving further test results should still be based on the clinical status of the animal and index of suspicion using a combination of all available clinical information at that time.

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Original publication on PubMed: https://pubmed.ncbi.nlm.nih.gov/39840346/