Peer-reviewed veterinary case report
Genetic testing advances for diagnosing dog leukemia in veterinary
By Harris, R. Adam et al.·Published in Veterinary Clinical Pathology·2024·Department of Microbiology, Immunology and Pathology Colorado State University Fort Collins Colorado USA, United States·View original on Crossref →
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Original publication title: Advancements in genetic analysis: Insights from a case study and review of next‐generation sequencing techniques for veterinary oncology applications
- Species:
- dog
Plain-English summary
A 7-year-old dog was diagnosed with acute myeloid leukemia (AML), a serious blood cancer that can be difficult to treat. Whole genome sequencing was used to analyze the dog's genetic makeup, helping to identify specific mutations linked to the disease. While this advanced testing shows promise for better understanding and potentially treating AML in dogs, more research is needed to confirm how these findings can improve treatment outcomes. Currently, the use of this technology in everyday veterinary practice faces challenges, including costs and the need for thorough testing processes.
People also search for: dog leukemia treatment · canine AML symptoms · genetic testing for dog cancer
Abstract
Abstract Acute myeloid leukemia (AML) poses significant challenges in veterinary medicine, with limited treatment options and poor survival rates. While substantial progress has been made in characterizing human AML, translating these advancements to veterinary practice has been hindered by limited molecular understanding and diagnostic tools. The case study presented illustrates the application of whole genome sequencing in diagnosing AML in a dog, showcasing its potential in veterinary oncology. Our approach facilitated comprehensive genomic analysis, identifying mutations in genes that may be associated with AML pathogenesis in dogs, such as KRAS , IKZF1 , and RUNX1 . However, without supportive evidence of its clinical utility (eg, association with response to treatment or prognosis), the information is limited to exploration. This article reviews the comparative features of canine AML with human AML and discusses strategies to shrink the knowledge gap between human and veterinary medicine with cost‐effective next‐generation sequencing (NGS) techniques. By utilizing these approaches, the unique and shared molecular features with human AML can be identified, aiding in molecular classification and therapeutic development for both species. Despite the promise of NGS, challenges exist in implementing it into routine veterinary diagnostics. Cost considerations, turnaround times, and the need for robust bioinformatics pipelines and quality control measures must be addressed. Most importantly, analytical and clinical validation processes are essential to ensure the reliability and clinical utility of NGS‐based assays. Overall, integrating NGS technologies into veterinary oncology holds great potential for advancing our understanding of AML and improving disease stratification, in hopes of improving clinical outcomes.
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Search related cases →Original publication on Crossref: https://doi.org/10.1111/vcp.13388