Value of flow cytometry for MRD-based relapse prediction in B-cell precursor ALL in a multicenter setting

Modvig, Signe; Hallböök, Heléne; Madsen, Hans O.; Siitonen, Sanna; Rosthøj, Susanne; Tierens, Anne; Juvonen, Vesa; Osnes, Liv; Vålerhaugen, Helen; Hultdin, Magnus; Matuzeviciene, Reda; Stoškus, Mindaugas; Marincevic, Millaray; Lilleorg, Aili; Ehinger, Mats; Norén‐Nyström, Ulrika; Toft, Nina; Taskinen, Mervi; Jónsson, Òlafur G.; Pruunsild, Kaie; Vaitkevičienė, Goda; Vettenranta, Kim; Lund, Bendik; Abrahamsson, Jonas; Porwit, Anna; Schmiegelow, Kjeld; Marquart, Hanne Vibeke

doi:10.1038/s41375-020-01100-5

Cited by 27 publications

(26 citation statements)

References 43 publications

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“…At MRD timepoints, the first aspirate was used for FCM‐ and PCR‐MRD to avoid hemodilution and subsequent differences in assessment of blast concentration, and the bone marrow material was split equally for FCM‐ and PCR‐MRD. MRD was measured by flow cytometry using protocol‐defined six‐color panels for identification and monitoring of the LAIP according to the NOPHO ALL2008 guidelines [3,28]. At least 300 000 events, but preferably 1 million events, per antibody combination were analyzed when sufficient material was available, corresponding to a sensitivity of 1 × 10 −5 (sensitivity calculated as 10/live singlets, corresponding to the identification of ≥ 10 clustered leukemic events among all live singlets analyzed, as defined by the ALL2008 protocol [3]).…”

Section: Methodsmentioning

confidence: 99%

High CD34 surface expression in BCP‐ALL predicts poor induction therapy response and is associated with altered expression of genes related to cell migration and adhesion

et al. 2022

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Section: Methodsmentioning

confidence: 99%

High CD34 surface expression in BCP‐ALL predicts poor induction therapy response and is associated with altered expression of genes related to cell migration and adhesion

et al. 2022

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“…Today, MRD is routinely measured by two sensitive methods: MFC and quantitative PCR (qPCR)-based analysis. Both techniques have strengths and pitfalls and there is a growing recognition of the need for both methods because they supplement each other in the management of B-cell precursor (BCP)-ALL and T-cell ALL, especially when aiming for correct stratification of virtually all patients (10)(11)(12). Droplet digital PCR (ddPCR) and next generation sequencing (NGS), especially, are promising technologies for MRD detection and are potentially useful as future methods for MRD monitoring, providing even higher sensitivity and accuracy than MFC and qPCR.…”

Section: Methods For Mrd Measurementmentioning

confidence: 99%

“…MFC-MRD can be applied to most ALL patients (>90% of BCP-ALL cases have an informative LAIP), although it has been especially studied and implemented in BCP-ALL (11,28,29). MFC-MRD is also used successfully for treatment stratification in T-cell ALL (6,10,12,30).…”

Section: Mfc-based Mrd Analysesmentioning

confidence: 99%

Minimal Residual Disease Prior to and After Haematopoietic Stem Cell Transplantation in Children and Adolescents With Acute Lymphoblastic Leukaemia: What Level of Negativity Is Relevant?

et al. 2021

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Minimal residual disease (MRD) assessment plays a central role in risk stratification and treatment guidance in paediatric patients with acute lymphoblastic leukaemia (ALL). As such, MRD prior to haematopoietic stem cell transplantation (HSCT) is a major factor that is independently correlated with outcome. High burden of MRD is negatively correlated with post-transplant survival, as both the risk of leukaemia recurrence and non-relapse mortality increase with greater levels of MRD. Despite growing evidence supporting these findings, controversies still exist. In particular, it is still not clear whether multiparameter flow cytometry and real-time quantitative polymerase chain reaction, which is used to recognise immunoglobulin and T-cell receptor gene rearrangements, can be employed interchangeably. Moreover, the higher sensitivity in MRD quantification offered by next-generation sequencing techniques may further refine the ability to stratify transplant-associated risks. While MRD quantification from bone marrow prior to HSCT remains the state of the art, heavily pre-treated patients may benefit from additional staging, such as using 18F-fluorodeoxyglucose positron emission tomography/computed tomography to detect focal residues of disease. Additionally, the timing of MRD detection (i.e., immediately before administration of the conditioning regimen or weeks before) is a matter of debate. Pre-transplant MRD negativity has previously been associated with superior outcomes; however, in the recent For Omitting Radiation Under Majority age (FORUM) study, pre-HSCT MRD positivity was associated with neither relapse risk nor survival. In this review, we discuss the level of MRD that may require pre-transplant therapy intensification, risking time delay and complications (as well as losing the window for HSCT if disease progression occurs), as opposed to an adapted post-transplant strategy to achieve long-term remission. Indeed, MRD monitoring may be a valuable tool to guide individualised treatment decisions, including tapering of immunosuppression, cellular therapies (such as donor lymphocyte infusions) or additional immunotherapy (such as bispecific T-cell engagers or chimeric antigen receptor T-cell therapy).

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“…Originally, seminal studies in pediatric ALL have represented a leading clinical experience of MFC-MRD use in hematologic patients [ 39 , 40 , 41 , 42 , 43 ]. Today, although RQ-PCR of Ig/TCR gene rearrangements and other specific gene fusions constitutes the most validated method for MRD monitoring in ALL, LAIP detection by MFC is commonly suggested to complement the molecular approach, as MFC can provide faster accurate results and deeper biological information [ 36 , 37 , 44 , 45 , 46 , 47 ].…”

Section: Acute Lymphoblastic Leukemia (All)mentioning

confidence: 99%

Multiparametric Flow Cytometry for MRD Monitoring in Hematologic Malignancies: Clinical Applications and New Challenges

Riva¹,

Nasillo²,

Ottomano³

et al. 2021

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Along with the evolution of immunophenotypic and molecular diagnostics, the assessment of Minimal Residual Disease (MRD) has progressively become a keystone in the clinical management of hematologic malignancies, enabling valuable post-therapy risk stratifications and guiding risk-adapted therapeutic approaches. However, specific prognostic values of MRD in different hematological settings, as well as its appropriate clinical uses (basically, when to measure it and how to deal with different MRD levels), still need further investigations, aiming to improve standardization and harmonization of MRD monitoring protocols and MRD-driven therapeutic strategies. Currently, MRD measurement in hematological neoplasms with bone marrow involvement is based on advanced highly sensitive methods, able to detect either specific genetic abnormalities (by PCR-based techniques and next-generation sequencing) or tumor-associated immunophenotypic profiles (by multiparametric flow cytometry, MFC). In this review, we focus on the growing clinical role for MFC-MRD diagnostics in hematological malignancies—from acute myeloid and lymphoblastic leukemias (AML, B-ALL and T-ALL), to chronic lymphocytic leukemia (CLL) and multiple myeloma (MM)—providing a comparative overview on technical aspects, clinical implications, advantages and pitfalls of MFC-MRD monitoring in different clinical settings.

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Value of flow cytometry for MRD-based relapse prediction in B-cell precursor ALL in a multicenter setting

Cited by 27 publications

References 43 publications

High CD34 surface expression in BCP‐ALL predicts poor induction therapy response and is associated with altered expression of genes related to cell migration and adhesion

High CD34 surface expression in BCP‐ALL predicts poor induction therapy response and is associated with altered expression of genes related to cell migration and adhesion

Minimal Residual Disease Prior to and After Haematopoietic Stem Cell Transplantation in Children and Adolescents With Acute Lymphoblastic Leukaemia: What Level of Negativity Is Relevant?

Multiparametric Flow Cytometry for MRD Monitoring in Hematologic Malignancies: Clinical Applications and New Challenges

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