Peer-reviewed veterinary case report
Changes in mouth bacteria linked to severe cat gum disease over time
By Claire A. Shaw et al.·Published in Bacteria·2025·View original on Semantic Scholar →
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Original publication title: Case Report: Inflammation-Driven Species-Level Shifts in the Oral Microbiome of Refractory Feline Chronic Gingivostomatitis
- Species:
- cat
Plain-English summary
A cat with chronic gingivostomatitis (FCGS), a painful inflammation of the mouth, struggled to respond to treatment for 17 months. Researchers studied the cat's oral bacteria and found that certain types of bacteria and fungi changed when the cat finally started responding to treatment. Specifically, the presence of some fungal species was linked to the cat's lack of improvement, while different bacteria were associated with a positive response to therapy. This suggests that understanding the oral microbiome could help veterinarians create more effective, personalized treatment plans for cats with this challenging condition.
People also search for: cat gingivostomatitis treatment · cat mouth inflammation · chronic gingivostomatitis in cats · cat oral health microbiome
Abstract
The cat oral microbiome plays an important role in maintaining host health, yet little is known about how to apply microbial data in a clinical setting. One such use of microbiome signatures is in cases of feline chronic gingivostomatitis (FCGS), a severe debilitating complex disease of the oral cavity. FCGS-afflicted cats have limited treatment options, and individual patient responses to treatment are needed. In this work, we used deep sequencing of total RNA of the oral microbiome to chronicle microbial changes that accompanied an FCGS-afflicted cat’s change from treatment-non-responsive to treatment-responsive within a 17-month span. The oral microbiome composition of the two treatment-non-responsive time points differed from that of the treatment-responsive point, with notable shifts in the abundance of Myscoplasmopsis, Aspergillus, and Capnocytophaga species. Intriguingly, the presence of the fungal groups Aspergillus and Candida primarily differentiated the two non-responsive microbiomes. Associated with responder status were multiple Capnocytophaga species, including Capnocytophaga sp. H2931, Capnocytophaga gingivalis, and Capnocytophaga canimorsus. The observation that the oral microbiome shifts in tandem by response to treatment in FCGS suggests a potential use for microbiome evaluations in a clinical setting. This work contributes to developing improved molecular diagnostics for enhanced efficacy of individualized treatment plans to improve oral disease.
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Search related cases →Original publication on Semantic Scholar: https://www.semanticscholar.org/paper/d99968fda3bd42af2952eeac71e96d1a64679f66