The ALLgorithMM: How to define the hemodilution of bone marrow samples in lymphoproliferative diseases

Ilaria Vigliotta; Silvia Armuzzi; Martina Barone; Vincenza Solli; Ignazia Pistis; Enrica Borsi; Barbara Taurisano; Gaia Mazzocchetti; Marina Martello; Andrea Poletti; Chiara Sartor; Ilaria Rizzello; Lucia Pantani; Paola Tacchetti; Cristina Papayannidis; Katia Mancuso; Serena Rocchi; Elena Zamagni; Antonio Curti; Mario Arpinati; Michele Cavo; Carolina Terragna

doi:10.3389/fonc.2022.1001048

The ALLgorithMM: How to define the hemodilution of bone marrow samples in lymphoproliferative diseases

Front Oncol. 2022 Oct 6:12:1001048. doi: 10.3389/fonc.2022.1001048. eCollection 2022.

Authors

Ilaria Vigliotta^{1

2}, Silvia Armuzzi^{1

2}, Martina Barone^{1

2}, Vincenza Solli^{1

2}, Ignazia Pistis¹, Enrica Borsi^{1

2}, Barbara Taurisano^{1

2}, Gaia Mazzocchetti^{1

2}, Marina Martello^{1

2}, Andrea Poletti^{1

2}, Chiara Sartor^{1

2}, Ilaria Rizzello^{1

2}, Lucia Pantani¹, Paola Tacchetti¹, Cristina Papayannidis¹, Katia Mancuso^{1

2}, Serena Rocchi^{1

2}, Elena Zamagni^{1

2}, Antonio Curti^{1

2}, Mario Arpinati^{1

2}, Michele Cavo^{1

2}, Carolina Terragna¹

Affiliations

¹ IRCCS Azienda Ospedaliero-Universitaria di Bologna, Seràgnoli Institute of Hematology, Bologna, Italy.
² Department of Experimental, Diagnostic and Specialty Medicine - University of Bologna, Bologna, Italy.

Abstract

Introduction: Minimal residual disease (MRD) is commonly assessed in bone marrow (BM) aspirate. However, sample quality can impair the MRD measurement, leading to underestimated residual cells and to false negative results. To define a reliable and reproducible method for the assessment of BM hemodilution, several flow cytometry (FC) strategies for hemodilution evaluation have been compared.

Methods: For each BM sample, cells populations with a well-known distribution in BM and peripheral blood - e.g., mast cells (MC), immature (IG) and mature granulocytes (N) - have been studied by FC and quantified alongside the BM differential count.

Results: The frequencies of cells' populations were correlated to the IG/N ratio, highlighting a mild correlation with MCs and erythroblasts (R=0.25 and R=0.38 respectively, with p-value=0.0006 and 0.0000052), whereas no significant correlation was found with B or T-cells. The mild correlation between IG/N, erythroblasts and MCs supported the combined use of these parameters to evaluate BM hemodilution, hence the optimization of the ALLgorithMM. Once validated, the ALLgorithMM was employed to evaluate the dilution status of BM samples in the context of MRD assessment. Overall, we found that 32% of FC and 52% of Next Generation Sequencing (NGS) analyses were MRD negative in samples resulted hemodiluted (HD) or at least mildly hemodiluted (mHD).

Conclusions: The high frequency of MRD-negative results in both HD and mHD samples implies the presence of possible false negative MRD measurements, impairing the correct assessment of patients' response to therapy and highlighs the importance to evaluate BM hemodilution.

Keywords: acute lymphoblastic leukemia; flow cytometry; hemodilution; hemodilution/methods; measurable (minimal) residual disease; minimal residual disease; multiple myeloma.

Copyright © 2022 Vigliotta, Armuzzi, Barone, Solli, Pistis, Borsi, Taurisano, Mazzocchetti, Martello, Poletti, Sartor, Rizzello, Pantani, Tacchetti, Papayannidis, Mancuso, Rocchi, Zamagni, Curti, Arpinati, Cavo and Terragna.