Optical genome mapping improves the accuracy of classification, risk stratification, and personalized treatment strategies for patients with acute myeloid leukemia

IF 10.1 1区 医学 Q1 HEMATOLOGY American Journal of Hematology Pub Date : 2024-07-17 DOI:10.1002/ajh.27435
Sanam Loghavi, Qing Wei, Farhad Ravandi, Andres E. Quesada, Mark J. Routbort, Shimin Hu, Gokce A. Toruner, Sa A. Wang, Wei Wang, Roberto N. Miranda, Shaoying Li, Jie Xu, Courtney D. DiNardo, Naval Daver, Tapan M. Kadia, Ghayas C. Issa, Hagop M. Kantarjian, L. Jeffrey Medeiros, Guilin Tang
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Abstract

Cytogenomic characterization is crucial for the classification and risk stratification of acute myeloid leukemia (AML), thereby facilitating therapeutic decision-making. We examined the clinical utility of optical genome mapping (OGM) in 159 AML patients (103 newly diagnosed and 56 refractory/relapsed), all of whom also underwent chromosomal banding analysis (CBA), fluorescence in situ hybridization, and targeted next-generation sequencing. OGM detected nearly all clinically relevant cytogenetic abnormalities that SCG identified with >99% sensitivity, provided the clonal burden was above 20%. OGM identified additional cytogenomic aberrations and/or provided information on fusion genes in 77 (48%) patients, including eight patients with normal karyotypes and four with failed karyotyping. The most common additional alterations identified by OGM included chromoanagenesis (n = 23), KMT2A partial tandem duplication (n = 11), rearrangements involving MECOM (n = 7), NUP98 (n = 2), KMT2A (n = 2), JAK2 (n = 2), and other gene fusions in 17 patients, with 10 showing novel fusion gene partners. OGM also pinpointed fusion genes in 17 (11%) patients where chromosomal rearrangements were concurrently detected by OGM and CBA. Overall, 24 (15%) aberrations were identified exclusively by OGM and had the potential to alter AML classification, risk stratification, and/or clinical trial eligibility. OGM emerges as a powerful tool for identifying fusion genes and detecting subtle or cryptic cytogenomic aberrations that may otherwise remain undetectable by CBA.

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光学基因组图谱提高了急性髓性白血病患者的分类、风险分层和个性化治疗策略的准确性。
细胞基因组学特征对于急性髓性白血病(AML)的分类和风险分层至关重要,从而有助于做出治疗决策。我们研究了光学基因组图谱(OGM)在 159 例急性髓性白血病患者(103 例新诊断患者和 56 例难治/复发患者)中的临床应用,所有这些患者都接受了染色体条带分析(CBA)、荧光原位杂交和定向下一代测序。只要克隆负荷高于 20%,OGM 几乎能检测出 SCG 所发现的所有临床相关细胞遗传学异常,灵敏度高于 99%。OGM 在 77 例(48%)患者中发现了额外的细胞基因组畸变和/或提供了融合基因的信息,其中包括 8 例核型正常的患者和 4 例核型检测失败的患者。OGM 发现的最常见的额外改变包括染色体畸变(23 例)、KMT2A 部分串联重复(11 例)、涉及 MECOM(7 例)、NUP98(2 例)、KMT2A(2 例)、JAK2(2 例)的重排,以及 17 例患者的其他基因融合,其中 10 例显示了新的融合基因伙伴。在 17 例(11%)同时通过 OGM 和 CBA 检测到染色体重排的患者中,OGM 也精确定位了融合基因。总体而言,有 24 例(15%)畸变完全由 OGM 确定,有可能改变急性髓细胞性白血病的分类、风险分层和/或临床试验资格。OGM是鉴定融合基因和检测微小或隐蔽细胞基因组畸变的有力工具,否则CBA可能无法检测到这些畸变。
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来源期刊
CiteScore
15.70
自引率
3.90%
发文量
363
审稿时长
3-6 weeks
期刊介绍: The American Journal of Hematology offers extensive coverage of experimental and clinical aspects of blood diseases in humans and animal models. The journal publishes original contributions in both non-malignant and malignant hematological diseases, encompassing clinical and basic studies in areas such as hemostasis, thrombosis, immunology, blood banking, and stem cell biology. Clinical translational reports highlighting innovative therapeutic approaches for the diagnosis and treatment of hematological diseases are actively encouraged.The American Journal of Hematology features regular original laboratory and clinical research articles, brief research reports, critical reviews, images in hematology, as well as letters and correspondence.
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