Peer-reviewed veterinary case report
Genomic changes linked to injection-site sarcomas in cats
By Thomas, Rachael et al.·Published in Chromosome research : an international journal on the molecular, supramolecular and evolutionary aspects of chromosome biology·2009·Department of Molecular Biomedical Sciences, United States·View original on PubMed →
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Original publication title: Microarray-based cytogenetic profiling reveals recurrent and subtype-associated genomic copy number aberrations in feline sarcomas.
- Species:
- cat
Plain-English summary
A study found that injection-site-associated sarcomas (ISAS) in cats, which can develop at vaccine injection sites, are more aggressive and likely to come back than other types of tumors. These tumors affect thousands of cats each year and can be challenging to diagnose and treat effectively. Researchers created a special test to identify specific genetic changes in these tumors, which could help veterinarians distinguish between ISAS and other tumors. This could lead to better treatment options and improved outcomes for affected cats in the future.
People also search for: cat vaccine tumor · feline sarcoma treatment · injection site lump cat
Abstract
Injection-site-associated sarcomas (ISAS), commonly arising at the site of routine vaccine administration, afflict as many as 22,000 domestic cats annually in the USA. These tumors are typically more aggressive and prone to recurrence than spontaneous sarcomas (non-ISAS), generally receiving a poorer long-term prognosis and warranting a more aggressive therapeutic approach. Although certain clinical and histological factors are highly suggestive of ISAS, timely diagnosis and optimal clinical management may be hindered by the absence of definitive markers that can distinguish between tumors with underlying injection-related etiology and their spontaneous counterpart. Specific nonrandom chromosome copy number aberrations (CNAs) have been associated with the clinical behavior of a vast spectrum of human tumors, providing an extensive resource of potential diagnostic and prognostic biomarkers. Although similar principles are now being applied with great success in other species, their relevance to feline molecular oncology has not yet been investigated in any detail. We report the construction of a genomic microarray platform for detection of recurrent CNAs in feline tumors through cytogenetic assignment of 210 large-insert DNA clones selected at intervals of approximately 15 Mb from the feline genome sequence assembly. Microarray-based profiling of 19 ISAS and 27 non-ISAS cases identified an extensive range of genomic imbalances that were highly recurrent throughout the combined panel of 46 sarcomas. Deletions of two specific regions were significantly associated with the non-ISAS phenotype. Further characterization of these regions may ultimately permit molecular distinction between ISAS and non-ISAS, as a tool for predicting tumor behavior and prognosis, as well as refining means for therapeutic intervention.
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Search related cases →Original publication on PubMed: https://pubmed.ncbi.nlm.nih.gov/19941159/