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.
In acute myeloid leukemia (AML), treatment decisions are currently made according to the risk classification of the European LeukemiaNet (ELN), which is based on genetic alterations. Recently, optical genome mapping (OGM) as a novel method proved to yield a genome-wide and detailed cytogenetic characterization at the time of diagnosis. A young female patient suffered from a rather unexpected aggressive disease course under FLT3 targeted therapy in combination with induction chemotherapy. By applying a “next-generation diagnostic workup“ strategy with OGM and whole-exome sequencing (WES), a DDX3X: MLLT10 gene fusion could be detected, otherwise missed by routine diagnostics. Furthermore, several aspects of lineage ambiguity not shown by standard diagnostics were unraveled such as deletions of SUZ12 and ARPP21, as well as T-cell receptor recombination. In summary, the detection of this particular gene fusion DDX3X: MLLT10 in a female AML patient and the findings of lineage ambiguity are potential explanations for the aggressive course of disease. Our study demonstrates that OGM can yield novel clinically significant results, including additional information helpful in disease monitoring and disease 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.
Yang et al. recently published their work entitled "High-resolution structural variant profiling of myelodysplastic syndromes by optical genome mapping uncovers cryptic aberrations of prognostic and therapeutic significance" in leukemia [1]. The authors describe a high concordance in 96/99 cases of detected structural variants by routine diagnostics, most importantly chromosomal banding analysis (CBA), and optical genome mapping (OGM) as a whole genome method for structural variant profiling (SVP). More importantly, in 34% of the 101 patients included in the analysis, cryptic variants could be clarified and the risk score according to R-IPSS was changed by additional information obtained by OGM in 17% of patients.These results and the approach chosen are well in line with the data published earlier this year by our group [2]. Although focusing on acute myeloid leukemia (AML), we also included a subgroup of six myelodysplastic syndrome (MDS) patients, three of them with excessive blasts I and three with excessive blasts II, or MDS/AML according to the recently updated international consensus classification [3]. Furthermore, 8 of 21 AML patients had myelodysplasia-related changes.Currently, and updating our previous data, our cohort consists of 42 patients (35 AML and 7 MDS, Table 1). Of 42 patients, a conventional diagnostic approach by cytogenetics (CBA; fluorescence in situ hybridization (FISH) and Copy-number variation (CNV)-microarrays where indicated) was able to detect variants in 26 cases. All but three of these variants could also be seen by OGM, the latter below the applied threshold of 5% variant allele frequency (VAF) and in high-repetitive regions such as around telomers and centromeres [4]. In 27 cases (64%), we could clarify or add additional information by using OGM as a non-DNA dependent amplification based whole genome method. For MDS patients this number was similar with 4/7 cases, where the karyotype could be redefined by utilizing OGM (Table 2).Based on these data, we recently proposed a next-generation work up applying targeted sequencing and a cytogenomics or
High-dose chemotherapy with autologous stem cell transplantation (HCT-ASCT) is reportedly an effective treatment strategy in relapsed or refractory primary CNS lymphoma (r/r PCNSL); however, only selected patients are eligible for this treatment. We retrospectively analyzed outcome, prognostic factors, and toxicity in 59 patients with r/r PCNSL planned to receive HCT-ASCT at our institution between January 2005 and December 2021 (n = 33 < 65 years; n = 26 ≥ 65 years). Median follow-up was 65 months (95% CI 21–109). Median age was 63 years (range 29–76), median Karnofsky performance score (KPS) was 80 (range 30–100). In the entire cohort of 59 patients, median overall survival (OS) was 14 months (95% CI 0–37). In 50/59 (84.7%) patients who completed HCT-ASCT, median progression free survival (PFS) was 12 months (95% CI 3–21) and median OS 30 months (95% CI 0–87). 1-year, 2-year, and 5-year OS rates of 61.2%, 52.3% and 47.1%, respectively, were observed. Six patients (10.2%) died related to treatment (1 during induction treatment, 5 post HCT-ASCT). Age was not prognostic. On univariate analysis, KPS ≥ 80 (p = 0.019) and complete or partial remission before HCT-ASCT (p = 0.026) were positive prognosticators of OS; on multivariate analysis, KPS (p = 0.043) and male gender (p = 0.039) had an impact on OS. The 5-year OS rate in patients with progressive or stable disease after induction treatment was 32.7%. In summary, HCT-ASCT was effective and feasible in this cohort of r/r PCNSL patients. Clinical state, remission status before HCT-ASCT, and gender influenced survival, whereas age did not influence outcome in this study.
Secondary central nervous system lymphoma (SCNSL) is a rare and difficult to treat type of Non-Hodgkin lymphoma characterized by systemic and central nervous system (CNS) disease manifestations. In this study, 124 patients with SCNSL intensively treated and with clinical long-term follow-up were included. Initial histopathology, as divided in low-grade, other aggressive, and diffuse large B-cell lymphoma (DLBCL), was of prognostic significance. Overall response to induction treatment was a prognostic factor with early responding DLBCL-SCNSL in comparison to those non-responding experiencing a significantly better progression-free survival (PFS) and overall survival (OS). However, the type of induction regime was not prognostic for survival. Following consolidating high-dose chemotherapy and autologous stem cell transplantation (HDT-ASCT), DLBCL-SCNSL patients had better median PFS and OS. The important role of HDT-ASCT was further highlighted by favorable responses and survival of patients not responding to induction therapy and by excellent results in patients with de novo DLBCL-SCNSL (65% long-term survival). SCNSL identified as a progression of disease within 6 months of initial systemic lymphoma presentation represented a previously not appreciated subgroup with particularly dismal outcome. This temporal stratification model of SCNSL diagnosis revealed CNS progression of disease within 6 months as a promising candidate prognosticator for future studies.
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