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- Author or Editor: Janina A. Krumbeck x
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Abstract
OBJECTIVE
To investigate the mycobiome of the oral cavity in healthy dogs and dogs with various stages of periodontal disease.
ANIMALS
51 dogs without periodontal disease (n = 12) or with mild (10), moderate (19), or severe (10) periodontal disease.
PROCEDURES
The whole maxillary arcade of each dog was sampled with a sterile swab, and swabs were submitted for next-generation DNA sequencing targeting the internal transcribed spacer 2 region with a commercial sequencing platform.
RESULTS
Fungi were detected in all samples, with a total of 320 fungal species from 135 families detected in the data set. No single fungal species was found in all samples. The 3 most frequently found fungal species were Cladosporium sp (46/51 samples), Malassezia restricta (44/51 samples), and Malassezia arunalokei (36/51 samples). Certain fungi, specifically those of the family Didymellaceae, the family Irpicaceae, and the order Pleosporales, were significantly associated with different stages of periodontitis. Mycobial analysis indicated that Cladosporium sp could be considered part of the core oral cavity mycobiome.
CONCLUSIONS AND CLINICAL RELEVANCE
Results highlighted that fungi are present in the oral cavity of dogs and are characterized by substantial species diversity, with different fungal communities associated with various stages of periodontal disease. The next-generation DNA sequencing used in the present study revealed substantially more species of fungi than previous culture-based studies.
Abstract
OBJECTIVE
To compare the bacteriome of the oral cavity in healthy dogs and dogs with various stages of periodontal disease.
ANIMALS
Dogs without periodontal disease (n = 12) or with mild (10), moderate (19), or severe (10) periodontal disease.
PROCEDURES
The maxillary arcade of each dog was sampled with a sterile swab, and swabs were submitted for next-generation DNA sequencing targeting the V1–V3 region of the 16S rRNA gene.
RESULTS
714 bacterial species from 177 families were identified. The 3 most frequently found bacterial species were Actinomyces sp (48/51 samples), Porphyromonas cangingivalis (47/51 samples), and a Campylobacter sp (48/51 samples). The most abundant species were P cangingivalis, Porphyromonas gulae, and an undefined Porphyromonas sp. Porphyromonas cangingivalis and Campylobacter sp were part of the core microbiome shared among the 4 groups, and P gulae, which was significantly enriched in dogs with severe periodontal disease, was part of the core microbiome shared between all groups except dogs without periodontal disease. Christensenellaceae sp, Bacteroidales sp, Family XIII sp, Methanobrevibacter oralis, Peptostreptococcus canis, and Tannerella sp formed a unique core microbiome in dogs with severe periodontal disease.
CONCLUSIONS AND CLINICAL RELEVANCE
Results highlighted that in dogs, potential pathogens can be common members of the oral cavity bacteriome in the absence of disease, and changes in the relative abundance of certain members of the bacteriome can be associated with severity of periodontal disease. Future studies may aim to determine whether these changes are the cause or result of periodontal disease or the host immune response.
Abstract
OBJECTIVE
While the clinical utility of next-generation DNA sequencing (NGS) as a diagnostic tool for infections in humans and traditional pets has been demonstrated, there is a lack of data regarding its utility for exotic animals. For exotic patients, traditional culturing is especially challenging for anaerobic and fungal pathogens. Therefore, diagnosis often relies on PCR, which provides a high degree of sensitivity and specificity, although it targets only a predetermined, finite pathogen panel. NGS provides the same benefits as PCR, while also offering de novo identification and quantification of all bacteria and fungi present in a clinical sample, including novel pathogen discovery.
PROCEDURES
Clinical samples from 78 exotic animal patients were collected simultaneously for conventional culture testing and NGS analysis. Results provided by each laboratory were compared for the presence and absence of bacterial and fungal pathogens and commensals.
RESULTS
Results showed large bacterial and fungal species diversity in the study cohort and a lack of sensitivity of microbial culture testing. Culture failed to grow 15% of putative bacterial and 81% of putative fungal pathogens that were identified by NGS. The probability of a “no growth” diagnosis was 14% higher for bacteria and 49% higher for fungi with culture versus NGS testing if fungal culture was conducted.
CLINICAL RELEVANCE
Culture testing failed to diagnose a substantial number of both bacterial and fungal pathogens, which were detected by NGS. This highlights the limitations of traditional culture-based testing and displays the clinically advanced utility of NGS-based diagnostics in exotic animal medicine.
