Cytogenetic diagnostics play a crucial role in risk stratification and classification of myeloid malignancies such as acute myeloid leukemia (AML) and myelodysplastic syndrome (MDS), thus influencing treatment decisions. Optical genome mapping (OGM) is a novel whole genome method for the detection of cytogenetic abnormalities. Our study assessed the applicability and practicality of OGM as diagnostic tool in AML and MDS patients. In total, 27 patients with AML or MDS underwent routine diagnostics including classical karyotyping and fluorescence in situ hybridization (FISH) or real‐time PCR analysis wherever indicated as well as OGM following a recently established workflow. Methods were compared regarding concordance and content of information. In 93%, OGM was concordant to classical karyotyping and a total of 61 additional variants in a predefined myeloid gene‐set could be detected. In 67% of samples the karyotype could be redefined by OGM. OGM offers a whole genome approach to cytogenetic diagnostics in AML and MDS with a high concordance to classical cytogenetics. The method has the potential to enter routine diagnostics as a gold standard for cytogenetic diagnostics widely superseding FISH. Furthermore, OGM can serve as a tool to identify genetic regions of interest and future research regarding tumor biology.
The classification and risk stratification of acute myeloid leukemia (AML) is based on reliable genetic diagnostics. A broad and expanding variety of relevant aberrations are structural variants beyond single-nucleotide variants. Optical Genome Mapping is an unbiased, genome-wide, amplification-free method for the detection of structural variants. In this review, the current knowledge of Optical Genome Mapping (OGM) with regard to diagnostics in hematological malignancies in general, and AML in specific, is summarized. Furthermore, this review focuses on the ability of OGM to expand the use of cytogenetic diagnostics in AML and perhaps even replace older techniques such as chromosomal-banding analysis, fluorescence in situ hybridization, or copy number variation microarrays. Finally, OGM is compared to amplification-based techniques and a brief outlook for future directions is given.
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