Your search keyword '"Maurer-Granofszky, Margarita"' showing total 26 results

1. Automated Immunophenotyping Assessment for Diagnosing Childhood Acute Leukemia using Set-Transformers

Author

Lygizou, Elpiniki Maria, Reiter, Michael, Maurer-Granofszky, Margarita, Dworzak, Michael, and Grosu, Radu

Subjects

Computer Science - Machine Learning, Quantitative Biology - Quantitative Methods

Abstract

Acute Leukemia is the most common hematologic malignancy in children and adolescents. A key methodology in the diagnostic evaluation of this malignancy is immunophenotyping based on Multiparameter Flow Cytometry (FCM). However, this approach is manual, and thus time-consuming and subjective. To alleviate this situation, we propose in this paper the FCM-Former, a machine learning, self-attention based FCM-diagnostic tool, automating the immunophenotyping assessment in Childhood Acute Leukemia. The FCM-Former is trained in a supervised manner, by directly using flow cytometric data. Our FCM-Former achieves an accuracy of 96.5% assigning lineage to each sample among 960 cases of either acute B-cell, T-cell lymphoblastic, and acute myeloid leukemia (B-ALL, T-ALL, AML). To the best of our knowledge, the FCM-Former is the first work that automates the immunophenotyping assessment with FCM data in diagnosing pediatric Acute Leukemia., Comment: The paper has been accepted at IEEE EMBS 2024 (46th Annual International Conference of the IEEE Engineering in Medicine and Biology Society)

Published

2024

2. FATE: Feature-Agnostic Transformer-based Encoder for learning generalized embedding spaces in flow cytometry data

Author

Weijler, Lisa, Kowarsch, Florian, Reiter, Michael, Hermosilla, Pedro, Maurer-Granofszky, Margarita, and Dworzak, Michael

Subjects

Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Computer Vision and Pattern Recognition

Abstract

While model architectures and training strategies have become more generic and flexible with respect to different data modalities over the past years, a persistent limitation lies in the assumption of fixed quantities and arrangements of input features. This limitation becomes particularly relevant in scenarios where the attributes captured during data acquisition vary across different samples. In this work, we aim at effectively leveraging data with varying features, without the need to constrain the input space to the intersection of potential feature sets or to expand it to their union. We propose a novel architecture that can directly process data without the necessity of aligned feature modalities by learning a general embedding space that captures the relationship between features across data samples with varying sets of features. This is achieved via a set-transformer architecture augmented by feature-encoder layers, thereby enabling the learning of a shared latent feature space from data originating from heterogeneous feature spaces. The advantages of the model are demonstrated for automatic cancer cell detection in acute myeloid leukemia in flow cytometry data, where the features measured during acquisition often vary between samples. Our proposed architecture's capacity to operate seamlessly across incongruent feature spaces is particularly relevant in this context, where data scarcity arises from the low prevalence of the disease. The code is available for research purposes at https://github.com/lisaweijler/FATE., Comment: Accepted at WACV 2024

Published

2023

3. Explainable Techniques for Analyzing Flow Cytometry Cell Transformers

Author

Kowarsch, Florian, Weijler, Lisa, Kleber, FLorian, Wödlinger, Matthias, Reiter, Michael, Maurer-Granofszky, Margarita, and Dworzak, Michael

Subjects

Quantitative Biology - Quantitative Methods, Computer Science - Artificial Intelligence

Abstract

Explainability for Deep Learning Models is especially important for clinical applications, where decisions of automated systems have far-reaching consequences. While various post-hoc explainable methods, such as attention visualization and saliency maps, already exist for common data modalities, including natural language and images, little work has been done to adapt them to the modality of Flow CytoMetry (FCM) data. In this work, we evaluate the usage of a transformer architecture called ReluFormer that ease attention visualization as well as we propose a gradient- and an attention-based visualization technique tailored for FCM. We qualitatively evaluate the visualization techniques for cell classification and polygon regression on pediatric Acute Lymphoblastic Leukemia (ALL) FCM samples. The results outline the model's decision process and demonstrate how to utilize the proposed techniques to inspect the trained model. The gradient-based visualization not only identifies cells that are most significant for a particular prediction but also indicates the directions in the FCM feature space in which changes have the most impact on the prediction. The attention visualization provides insights on the transformer's decision process when handling FCM data. We show that different attention heads specialize by attending to different biologically meaningful sub-populations in the data, even though the model retrieved solely supervised binary classification signals during training.

Published

2023

4. Automated Identification of Cell Populations in Flow Cytometry Data with Transformers

Author

Wödlinger, Matthias, Reiter, Michael, Weijler, Lisa, Maurer-Granofszky, Margarita, Schumich, Angela, Sajaroff, Elisa O., Groeneveld-Krentz, Stefanie, Rossi, Jorge G., Karawajew, Leonid, Ratei, Richard, and Dworzak, Michael

Subjects

Quantitative Biology - Quantitative Methods, Computer Science - Machine Learning

Abstract

Acute Lymphoblastic Leukemia (ALL) is the most frequent hematologic malignancy in children and adolescents. A strong prognostic factor in ALL is given by the Minimal Residual Disease (MRD), which is a measure for the number of leukemic cells persistent in a patient. Manual MRD assessment from Multiparameter Flow Cytometry (FCM) data after treatment is time-consuming and subjective. In this work, we present an automated method to compute the MRD value directly from FCM data. We present a novel neural network approach based on the transformer architecture that learns to directly identify blast cells in a sample. We train our method in a supervised manner and evaluate it on publicly available ALL FCM data from three different clinical centers. Our method reaches a median F1 score of ~0.94 when evaluated on 519 B-ALL samples and shows better results than existing methods on 4 different datasets, Comment: The article has been published as an open access article in the Journal for Computers in Biology and Medicine: https://doi.org/10.1016/j.compbiomed.2022.105314

Published

2021

5. CD371-positive pediatric B-cell acute lymphoblastic leukemia: propensity to lineage switch and slow early response to treatment

Author

Buldini, Barbara, Varotto, Elena, Maurer-Granofszky, Margarita, Gaipa, Giuseppe, Schumich, Angela, Brüggemann, Monika, Mejstrikova, Ester, Cazzaniga, Giovanni, Hrusak, Ondrej, Szczepanowski, Monika, Scarparo, Pamela, Zimmermann, Martin, Strehl, Sabine, Schinnerl, Dagmar, Zaliova, Marketa, Karawajew, Leonid, Bourquin, Jean-Pierre, Feuerstein, Tamar, Cario, Gunnar, Alten, Julia, Möricke, Anja, Biffi, Alessandra, Parasole, Rosanna, Fagioli, Franca, Valsecchi, Maria Grazia, Biondi, Andrea, Locatelli, Franco, Attarbaschi, Andishe, Schrappe, Martin, Conter, Valentino, Basso, Giuseppe, and Dworzak, Michael N.

Published

2024

6. Risk factors in DUX4-positive childhood and adolescent B-cell acute lymphoblastic leukemia

Author

Schinnerl, Dagmar, Riebler, Marion, Schumich, Angela, Haslinger, Sabrina, Bramböck, Alice, Inthal, Andrea, Nykiel, Marek, Maurer-Granofszky, Margarita, Haas, Oskar A., Pötschger, Ulrike, Köhrer, Stefan, Nebral, Karin, Dworzak, Michael N., Attarbaschi, Andishe, and Strehl, Sabine

Published

2024

7. Towards Self-explainable Transformers for Cell Classification in Flow Cytometry Data

Author

Kowarsch, Florian, Weijler, Lisa, Wödlinger, Matthias, Reiter, Michael, Maurer-Granofszky, Margarita, Schumich, Angela, Sajaroff, Elisa O., Groeneveld-Krentz, Stefanie, Rossi, Jorge G., Karawajew, Leonid, Ratei, Richard, Dworzak, Michael N., Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Reyes, Mauricio, editor, Henriques Abreu, Pedro, editor, and Cardoso, Jaime, editor

Published

2022

8. FATE: Feature-Agnostic Transformer-based Encoder for learning generalized embedding spaces in flow cytometry data

Author

Weijler, Lisa, primary, Kowarsch, Florian, additional, Reiter, Michael, additional, Hermosilla, Pedro, additional, Maurer-Granofszky, Margarita, additional, and Dworzak, Michael, additional

Published

2024

9. FCM marker importance for MRD assessment in T‐Cell Acute Lymphoblastic Leukemia: An AIEOP‐BFM‐ALL‐FLOW Study Group Report

Author

Kowarsch, Florian, primary, Maurer‐Granofszky, Margarita, additional, Weijler, Lisa, additional, Wödlinger, Matthias, additional, Reiter, Michael, additional, Schumich, Angela, additional, Feuerstein, Tamar, additional, Sala, Simona, additional, Nováková, Michaela, additional, Faggin, Giovanni, additional, Gaipa, Giuseppe, additional, Hrusak, Ondrej, additional, Buldini, Barbara, additional, and Dworzak, Michael N., additional

Published

2023

10. Chemical Acetylation of Ligands and Two-Step Digestion Protocol for Reducing Codigestion in Affinity Purification–Mass Spectrometry

Author

Hollenstein, David M., primary, Maurer-Granofszky, Margarita, additional, Reiter, Wolfgang, additional, Anrather, Dorothea, additional, Gossenreiter, Thomas, additional, Babic, Riccardo, additional, Hartl, Natascha, additional, Kraft, Claudine, additional, and Hartl, Markus, additional

Published

2023

11. FCM marker importance for MRD assessment in T‐cell acute lymphoblastic leukemia: An AIEOP‐BFM‐ALL‐FLOW study group report.

Author

Kowarsch, Florian, Maurer‐Granofszky, Margarita, Weijler, Lisa, Wödlinger, Matthias, Reiter, Michael, Schumich, Angela, Feuerstein, Tamar, Sala, Simona, Nováková, Michaela, Faggin, Giovanni, Gaipa, Giuseppe, Hrusak, Ondrej, Buldini, Barbara, and Dworzak, Michael N.

Abstract

T‐lineage acute lymphoblastic leukemia (T‐ALL) accounts for about 15% of pediatric and about 25% of adult ALL cases. Minimal/measurable residual disease (MRD) assessed by flow cytometry (FCM) is an important prognostic indicator for risk stratification. In order to assess the MRD a limited number of antibodies directed against the most discriminative antigens must be selected. We propose a pipeline for evaluating the influence of different markers for cell population classification in FCM data. We use linear support vector machine, fitted to each sample individually to avoid issues with patient and laboratory variations. The best separating hyperplane direction as well as the influence of omitting specific markers is considered. Ninety‐one bone marrow samples of 43 pediatric T‐ALL patients from five reference laboratories were analyzed by FCM regarding marker importance for blast cell identification using combinations of eight different markers. For all laboratories, CD48 and CD99 were among the top three markers with strongest contribution to the optimal hyperplane, measured by median separating hyperplane coefficient size for all samples per center and time point (diagnosis, Day 15, Day 33). Based on the available limited set tested (CD3, CD4, CD5, CD7, CD8, CD45, CD48, CD99), our findings prove that CD48 and CD99 are useful markers for MRD monitoring in T‐ALL. The proposed pipeline can be applied for evaluation of other marker combinations in the future. [ABSTRACT FROM AUTHOR]

Published

2024

12. B cells sustain inflammation and predict response to immune checkpoint blockade in human melanoma

Author

Griss, Johannes, Bauer, Wolfgang, Wagner, Christine, Simon, Martin, Chen, Minyi, Grabmeier-Pfistershammer, Katharina, Maurer-Granofszky, Margarita, Roka, Florian, Penz, Thomas, Bock, Christoph, Zhang, Gao, Herlyn, Meenhard, Glatz, Katharina, Läubli, Heinz, Mertz, Kirsten D., Petzelbauer, Peter, Wiesner, Thomas, Hartl, Markus, Pickl, Winfried F., Somasundaram, Rajasekharan, Steinberger, Peter, and Wagner, Stephan N.

Published

2019

13. Automated identification of cell populations in flow cytometry data with transformers

Author

Wödlinger, Matthias, primary, Reiter, Michael, additional, Weijler, Lisa, additional, Maurer-Granofszky, Margarita, additional, Schumich, Angela, additional, Sajaroff, Elisa O., additional, Groeneveld-Krentz, Stefanie, additional, Rossi, Jorge G., additional, Karawajew, Leonid, additional, Ratei, Richard, additional, and Dworzak, Michael N., additional

Published

2022

14. An Extensive Quality Control and Quality Assurance (QC/QA) Program Significantly Improves Inter-Laboratory Concordance Rates of Flow-Cytometric Minimal Residual Disease Assessment in Acute Lymphoblastic Leukemia: An I-BFM-FLOW-Network Report

Author

Maurer-Granofszky, Margarita, Schumich, Angela, Buldini, Barbara, Gaipa, Giuseppe, Kappelmayer, Janos, Mejstrikova, Ester, Karawajew, Leonid, Rossi, Jorge, Suzan, Adın Çınar, Agriello, Evangelina, Anastasiou-Grenzelia, Theodora, Barcala, Virna, Barna, Gábor, Batinić, Drago, Bourquin, Jean-Pierre, Brüggemann, Monika, Bukowska-Strakova, Karolina, Burnusuzov, Hasan, Carelli, Daniela, Deniz, Günnur, Dubravčić, Klara, Feuerstein, Tamar, Gaillard, Marie Isabel, Galeano, Adriana, Giordano, Hugo, Gonzalez, Alejandro, Groeneveld-Krentz, Stefanie, Hevessy, Zsuzsanna, Hrusak, Ondrej, Iarossi, Maria Belen, et al, and University of Zurich

Subjects

10036 Medical Clinic, 610 Medicine & health, 2730 Oncology, 1306 Cancer Research

Published

2021

15. UMAP Based Anomaly Detection for Minimal Residual Disease Quantification within Acute Myeloid Leukemia

Author

Weijler, Lisa, primary, Kowarsch, Florian, additional, Wödlinger, Matthias, additional, Reiter, Michael, additional, Maurer-Granofszky, Margarita, additional, Schumich, Angela, additional, and Dworzak, Michael N., additional

Published

2022

16. Detecting Rare Cell Populations in Flow Cytometry Data Using UMAP

Author

Weijler, Lisa, primary, Diem, Markus, additional, Reiter, Michael, additional, and Maurer-Granofszky, Margarita, additional

Published

2021

17. Phospho-Profiling Linking Biology and Clinics in Pediatric Acute Myeloid Leukemia

Author

Schumich, Angela, primary, Prchal-Murphy, Michaela, additional, Maurer-Granofszky, Margarita, additional, Hoelbl-Kovacic, Andrea, additional, Mühlegger, Nora, additional, Pötschger, Ulrike, additional, Fajmann, Sabine, additional, Haas, Oskar A., additional, Nebral, Karin, additional, von Neuhoff, Nils, additional, Zimmermann, Martin, additional, Boztug, Heidrun, additional, Rasche, Mareike, additional, Dolezal, Marlies, additional, Walter, Christiane, additional, Reinhardt, Dirk, additional, Sexl, Veronika, additional, and Dworzak, Michael N., additional

Published

2019

18. Transient Switch to Myeloid Lineage in Acute Lymphoblastic Leukemia during Induction Therapy: The Role of CD371 Expression and Implication for Minimal Residual Disease Detection

Author

Varotto, Elena, primary, Maurer-Granofszky, Margarita, primary, Silvestri, Daniela, primary, Scarparo, Pamela, primary, Mejstrikova, Ester, primary, Brüggemann, Monika, primary, Cazzaniga, Giovanni, primary, Conter, Valentino, primary, Hrusak, Ondrej, primary, Gaipa, Giuseppe, primary, Schumich, Angela, primary, Valsecchi, Maria Grazia, primary, Basso, Giuseppe, primary, Dworzak, Michael, primary, and Buldini, Barbara, primary

Published

2019

19. Flow-Cytometric Monitoring of Minimal Residual Disease in Pediatric Patients With Acute Myeloid Leukemia: Recent Advances and Future Strategies

Author

Buldini, Barbara, primary, Maurer-Granofszky, Margarita, additional, Varotto, Elena, additional, and Dworzak, Michael N., additional

Published

2019

20. CD371 cell surface expression: a unique feature of DUX4-rearranged acute lymphoblastic leukemia

Author

Schinnerl, Dagmar, primary, Mejstrikova, Ester, additional, Schumich, Angela, additional, Zaliova, Marketa, additional, Fortschegger, Klaus, additional, Nebral, Karin, additional, Attarbaschi, Andishe, additional, Fiser, Karel, additional, Kauer, Maximilian O., additional, Popitsch, Niko, additional, Haslinger, Sabrina, additional, Inthal, Andrea, additional, Buldini, Barbara, additional, Basso, Giuseppe, additional, Bourquin, Jean-Pierre, additional, Gaipa, Giuseppe, additional, Brüggemann, Monika, additional, Feuerstein, Tamar, additional, Maurer-Granofszky, Margarita, additional, Panzer-Grümayer, Renate, additional, Trka, Jan, additional, Mann, Georg, additional, Haas, Oskar A., additional, Hrusak, Ondrej, additional, Dworzak, Michael N., additional, and Strehl, Sabine, additional

Published

2019

21. B cells sustain inflammation and predict response to immune checkpoint blockade in human melanoma

Author

Griss, Johannes, primary, Bauer, Wolfgang, additional, Wagner, Christine, additional, Maurer-Granofszky, Margarita, additional, Simon, Martin, additional, Chen, Minyi, additional, Steinberger, Peter, additional, Grabmeier-Pfistershammer, Katharina, additional, Roka, Florian, additional, Penz, Thomas, additional, Bock, Christoph, additional, Zhang, Gao, additional, Herlyn, Meenhard, additional, Glatz, Katharina, additional, Laubli, Heinz, additional, Mertz, Kirsten D, additional, Petzelbauer, Peter, additional, Wiesner, Thomas, additional, Hartl, Markus, additional, Pickl, Winfried, additional, Somasundaram, Rajasekharan, additional, and Wagner, Stephan N, additional

Published

2018

22. Automated Flow Cytometric MRD Assessment in Childhood Acute B‐ Lymphoblastic Leukemia Using Supervised Machine Learning.

Author

Reiter, Michael, Diem, Markus, Schumich, Angela, Maurer‐Granofszky, Margarita, Karawajew, Leonid, Rossi, Jorge G., Ratei, Richard, Groeneveld‐Krentz, Stefanie, Sajaroff, Elisa O., Suhendra, Susanne, Kampel, Martin, and Dworzak, Michael N.

Abstract

Minimal residual disease (MRD) as measured by multiparameter flow cytometry (FCM) is an independent and strong prognostic factor in B‐cell acute lymphoblastic leukemia (B‐ALL). However, reliable flow cytometric detection of MRD strongly depends on operator skills and expert knowledge. Hence, an objective, automated tool for reliable FCM‐MRD quantification, able to overcome the technical diversity and analytical subjectivity, would be most helpful. We developed a supervised machine learning approach using a combination of multiple Gaussian Mixture Models (GMM) as a parametric density model. The approach was used for finding the weights of a linear combination of multiple GMMs to represent new, "unseen" samples by an interpolation of stored samples. The experimental data set contained FCM‐MRD data of 337 bone marrow samples collected at day 15 of induction therapy in three different laboratories from pediatric patients with B‐ALL for which accurate, expert‐set gates existed. We compared MRD quantification by our proposed GMM approach to operator assessments, its performance on data from different laboratories, as well as to other state‐of‐the‐art automated read‐out methods. Our proposed GMM‐combination approach proved superior over support vector machines, deep neural networks, and a single GMM approach in terms of precision and average F1‐scores. A high correlation of expert operator‐based and automated MRD assessment was achieved with reliable automated MRD quantification (F1‐scores >0.5 in more than 95% of samples) in the clinically relevant range. Although best performance was found, if test and training samples were from the same system (i.e., flow cytometer and staining panel; lowest median F1‐score 0.92), cross‐system performance remained high with a median F1‐score above 0.85 in all settings. In conclusion, our proposed automated approach could potentially be used to assess FCM‐MRD in B‐ALL in an objective and standardized manner across different laboratories. © 2019 International Society for Advancement of Cytometry [ABSTRACT FROM AUTHOR]

Published

2019

23. Flow-cytometric minimal residual disease monitoring in blood predicts relapse risk in pediatric B-cell precursor acute lymphoblastic leukemia in trial AIEOP-BFM-ALL 2000.

Author

Schumich, Angela, Maurer‐Granofszky, Margarita, Attarbaschi, Andishe, Pötschger, Ulrike, Buldini, Barbara, Gaipa, Giuseppe, Karawajew, Leonid, Printz, Dieter, Ratei, Richard, Conter, Valentino, Schrappe, Martin, Mann, Georg, Basso, Giuseppe, Dworzak, Michael N., Maurer-Granofszky, Margarita, and AIEOP-BFM-ALL-FLOW-Study Group

Published

2019

24. Erratum to : Genomic breakpoint-specific monitoring of measurable residual disease in pediatric non-standard risk acute myeloid leukemia.

Author

Maurer-Granofszky M, Köhrer S, Fischer S, Schumich A, Nebral K, Larghero P, Meyer C, Mecklenbräuker A, Mühlegger N, Marschalek R, Haas OA, Panzer-Grümayer R, and Dworzak MN

Subjects

Humans, Child, Leukemia, Myeloid, Acute genetics, Leukemia, Myeloid, Acute diagnosis, Neoplasm, Residual diagnosis, Neoplasm, Residual genetics

Published

2024

25. Genomic breakpoint-specific monitoring of measurable residual disease in pediatric non-standard-risk acute myeloid leukemia.

Author

Maurer-Granofszky M, Kohrer S, Fischer S, Schumich A, Nebral K, Larghero P, Meyer C, Mecklenbrauker A, Muhlegger N, Marschalek R, Haas OA, Panzer-Grumayer R, and Dworzak MN

Subjects

Humans, Child, Flow Cytometry, Gene Rearrangement, Neoplasm, Residual diagnosis, Neoplasm, Residual genetics, Genomics, Leukemia, Myeloid, Acute diagnosis, Leukemia, Myeloid, Acute genetics, Leukemia, Myeloid, Acute therapy

Abstract

Pediatric acute myeloid leukemia (AML) is a highly heterogeneous disease making standardized measurable residual disease (MRD) assessment challenging. Currently, patient-specific DNA-based assays are only rarely applied for MRD assessment in pediatric AML. We tested whether quantification of genomic breakpoint-specific sequences via quantitative polymerase chain reaction (gDNA-PCR) provides a reliable means of MRD quantification in children with non-standardrisk AML and compared its results to those obtained with state-of-the-art ten-color flow cytometry (FCM). Breakpointspecific gDNA-PCR assays were established according to Euro-MRD consortium guidelines. FCM-MRD assessment was performed according to the European Leukemia Network guidelines with adaptations for pediatric AML. Of 77 consecutively recruited non-standard-risk pediatric AML cases, 49 (64%) carried a chromosomal translocation potentially suitable for MRD quantification. Genomic breakpoint analysis returned a specific DNA sequence in 100% (41/41) of the cases submitted for investigation. MRD levels were evaluated using gDNA-PCR in 243 follow-up samples from 36 patients, achieving a quantitative range of at least 10-4 in 231/243 (95%) of samples. Comparing gDNA-PCR with FCM-MRD data for 183 bone marrow follow-up samples at various therapy timepoints showed a high concordance of 90.2%, considering a cut-off of ≥0.1%. Both methodologies outperformed morphological assessment. We conclude that MRD monitoring by gDNA-PCR is feasible in pediatric AML with traceable genetic rearrangements and correlates well with FCM-MRD in the currently applied clinically relevant range, while being more sensitive below that. The methodology should be evaluated in larger cohorts to pave the way for clinical application.

Published

2024

26. An Extensive Quality Control and Quality Assurance (QC/QA) Program Significantly Improves Inter-Laboratory Concordance Rates of Flow-Cytometric Minimal Residual Disease Assessment in Acute Lymphoblastic Leukemia: An I-BFM-FLOW-Network Report.

Author

Maurer-Granofszky M, Schumich A, Buldini B, Gaipa G, Kappelmayer J, Mejstrikova E, Karawajew L, Rossi J, Suzan AÇ, Agriello E, Anastasiou-Grenzelia T, Barcala V, Barna G, Batinić D, Bourquin JP, Brüggemann M, Bukowska-Strakova K, Burnusuzov H, Carelli D, Deniz G, Dubravčić K, Feuerstein T, Gaillard MI, Galeano A, Giordano H, Gonzalez A, Groeneveld-Krentz S, Hevessy Z, Hrusak O, Iarossi MB, Jáksó P, Kloboves Prevodnik V, Kohlscheen S, Kreminska E, Maglia O, Malusardi C, Marinov N, Martin BM, Möller C, Nikulshin S, Palazzi J, Paterakis G, Popov A, Ratei R, Rodríguez C, Sajaroff EO, Sala S, Samardzija G, Sartor M, Scarparo P, Sędek Ł, Slavkovic B, Solari L, Svec P, Szczepanski T, Taparkou A, Torrebadell M, Tzanoudaki M, Varotto E, Vernitsky H, Attarbaschi A, Schrappe M, Conter V, Biondi A, Felice M, Campbell M, Kiss C, Basso G, Dworzak MN, and On Behalf Of I-Bfm-Flow-Network

Abstract

Monitoring of minimal residual disease (MRD) by flow cytometry (FCM) is a powerful prognostic tool for predicting outcomes in acute lymphoblastic leukemia (ALL). To apply FCM-MRD in large, collaborative trials, dedicated laboratory staff must be educated to concordantly high levels of expertise and their performance quality should be continuously monitored. We sought to install a unique and comprehensive training and quality control (QC) program involving a large number of reference laboratories within the international Berlin-Frankfurt-Münster (I-BFM) consortium, in order to complement the standardization of the methodology with an educational component and persistent quality control measures. Our QC and quality assurance (QA) program is based on four major cornerstones: (i) a twinning maturation program, (ii) obligatory participation in external QA programs (spiked sample send around, United Kingdom National External Quality Assessment Service (UK NEQAS)), (iii) regular participation in list-mode-data (LMD) file ring trials (FCM data file send arounds), and (iv) surveys of independent data derived from trial results. We demonstrate that the training of laboratories using experienced twinning partners, along with continuous educational feedback significantly improves the performance of laboratories in detecting and quantifying MRD in pediatric ALL patients. Overall, our extensive education and quality control program improved inter-laboratory concordance rates of FCM-MRD assessments and ultimately led to a very high conformity of risk estimates in independent patient cohorts.

Published

2021