Liquid biopsy‐based circulating tumour (<scp>ct)DNA</scp> analysis of a spectrum of myeloid and lymphoid malignancies yields clinically actionable results

Mata, Douglas A; Lee, Jessica K; Shanmugam, Vignesh; Marcus, Chelsea B; Schrock, Alexa B; Williams, Erik A; Ritterhouse, Lauren L; Hickman, Richard A; Janovitz, Tyler; Patel, Nimesh R; Kroger, Benjamin R; Ross, Jeffrey S; Mirza, Kamran M; Oxnard, Geoffrey R; Vergilio, Jo‐Anne; Elvin, Julia A; Benhamida, Jamal K; Decker, Brennan; Xu, Mina L

doi:10.1111/his.15168

Histopathology

2024

DOI: 10.1111/his.15168

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Liquid biopsy‐based circulating tumour (ct)DNA analysis of a spectrum of myeloid and lymphoid malignancies yields clinically actionable results

Douglas A Mata,

Jessica K Lee,

Vignesh Shanmugam

et al.

Abstract: AimsLiquid biopsy (LBx)‐based next‐generation sequencing (NGS) of circulating tumour DNA (ctDNA) can facilitate molecular profiling of haematopoietic neoplasms (HNs), particularly when tissue‐based NGS is infeasible.Methods and ResultsWe studied HN LBx samples tested with FoundationOne Liquid CDx, FoundationOne Liquid, or FoundationACT between July 2016 and March 2022. We identified 271 samples: 89 non‐Hodgkin lymphoma (NHL), 43 plasma‐cell neoplasm (PCN), 41 histiocytoses, 27 myelodysplastic syndrome (MDS), 2… Show more

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Cell-Free DNA in Hematologic Malignancies

Schroers-Martin,

Alizadeh

2024

JCO Oncol Pract

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Liquid biopsy techniques using cell-free DNA (cfDNA) play an increasingly important role in the characterization and surveillance of solid tumors. For blood cancers, molecular response assessment techniques using circulating malignant cells or bone marrow aspirates are well established in clinical care. However, cfDNA has an emerging role in hematology as well, with the opportunity for disease assessment and quantification independent of circulating disease burden or invasive biopsies. In this review, we discuss key technologies and clinical data for the utilization of cfDNA in lymphomas, myeloma, and leukemias.

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Cell-Free DNA in Hematologic Malignancies

Schroers-Martin,

Alizadeh

2024

JCO Oncol Pract

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Circulating Tumor DNA in Early and Metastatic Breast Cance—Current Role and What Is Coming Next

Tegeler,

Hartkopf,

Banys-Paluchowski

et al. 2024

Cancers

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The progress that has been made in recent years in relation to liquid biopsies in general and circulating tumor DNA (ctDNA) in particular can be seen as groundbreaking for the future of breast cancer treatment, monitoring and early detection. Cell-free DNA (cfDNA) consists of circulating DNA fragments released by various cell types into the bloodstream. A portion of this cfDNA, known as ctDNA, originates from malignant cells and carries specific genetic mutations. Analysis of ctDNA provides a minimally invasive method for diagnosis, monitoring response to therapy, and detecting the emergence of resistance. Several methods are available for the analysis of ctDNA, each with distinct advantages and limitations. Quantitative polymerase chain reaction is a well-established technique widely used due to its high sensitivity and specificity, particularly for detecting known mutations. In addition to the detection of individual mutations, multigene analyses were developed that could detect several mutations at once, including rarer mutations. These methods are complementary and can be used strategically depending on the clinical question. In the context of metastatic breast cancer, ctDNA holds particular promise as it allows for the dynamic monitoring of tumor evolution. Through ctDNA analysis, mutations in the ESR1 or PIK3CA genes, which are associated with therapy resistance, can be identified. This enables the early adjustment of treatment and has the potential to significantly enhance clinical outcome. The application of ctDNA in early breast cancer is an ongoing investigation. In (neo)adjuvant settings, there is preliminary data indicating that ctDNA can be used for therapy monitoring and risk stratification to decide on post-neoadjuvant strategies. In the monitoring of aftercare, the detection of ctDNA appears to be several months ahead of routine imaging. However, the feasibility of implementing this approach in a clinical setting remains to be seen. While the use of ctDNA as a screening method for the asymptomatic population would be highly advantageous due to its minimally invasive nature, the available data on its clinical benefit are still insufficient. Nevertheless, ctDNA represents the most promising avenue for fulfilling this potential future need.

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Liquid biopsy‐based circulating tumour (ct)DNA analysis of a spectrum of myeloid and lymphoid malignancies yields clinically actionable results

Cited by 2 publications

References 22 publications

Cell-Free DNA in Hematologic Malignancies

Cell-Free DNA in Hematologic Malignancies

Circulating Tumor DNA in Early and Metastatic Breast Cance—Current Role and What Is Coming Next

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