OBJECTIVES: In this study, we compared a classic single-platform (SP) method applying beads for enumeration of CD45+ or CD34+ cells with a new device allowing direct volumetric measurements of stem and progenitor cells. BACKGROUND: Following apheresis and cyropreservation, the precise enumeration of CD34+ cells as key parameter of graft quality is mandatory for the clinical course after transplantation. Currently, flow cytometry with SP technique represents the 'gold standard' for such determinations. METHODS/MATERIALS: Fresh samples, 14 from mobilised peripheral blood (PB), 9 from apheresis products (AP) and 13 samples from frozen-thawed (FT) haematopoietic progenitor cell grafts, were analysed for CD34+ cells, CD45+ cells, and in frozen-thawed samples for viability by a bead-based flow cytometric method and in parallel by a direct, volumetric flow cytometric method. RESULTS: Comparison of CD34+ analyses revealed a significant correlation (P < 0·01) for each material between both techniques with r = 0·95 (PB), r = 0·933 (AP) and r = 0·929 (FT). Also, for analysis of CD45+ cells µL(-1) , the measured numbers evaluated with the different techniques did not significantly differ for all three materials analysed. In frozen-thawed samples, the analysis of viability was comparable for both techniques. CONCLUSIONS: The results of this study demonstrate that a direct volumetric analysis of CD34+ cells µL(-1) or CD45+ cells µL(-1) is feasible. This technique represents a simple and economical approach for standardisation of progenitor and stem cell analyses.
OBJECTIVES: In this study, we compared a classic single-platform (SP) method applying beads for enumeration of CD45+ or CD34+ cells with a new device allowing direct volumetric measurements of stem and progenitor cells. BACKGROUND: Following apheresis and cyropreservation, the precise enumeration of CD34+ cells as key parameter of graft quality is mandatory for the clinical course after transplantation. Currently, flow cytometry with SP technique represents the 'gold standard' for such determinations. METHODS/MATERIALS: Fresh samples, 14 from mobilised peripheral blood (PB), 9 from apheresis products (AP) and 13 samples from frozen-thawed (FT) haematopoietic progenitor cell grafts, were analysed for CD34+ cells, CD45+ cells, and in frozen-thawed samples for viability by a bead-based flow cytometric method and in parallel by a direct, volumetric flow cytometric method. RESULTS: Comparison of CD34+ analyses revealed a significant correlation (P < 0·01) for each material between both techniques with r = 0·95 (PB), r = 0·933 (AP) and r = 0·929 (FT). Also, for analysis of CD45+ cells µL(-1) , the measured numbers evaluated with the different techniques did not significantly differ for all three materials analysed. In frozen-thawed samples, the analysis of viability was comparable for both techniques. CONCLUSIONS: The results of this study demonstrate that a direct volumetric analysis of CD34+ cells µL(-1) or CD45+ cells µL(-1) is feasible. This technique represents a simple and economical approach for standardisation of progenitor and stem cell analyses.
Authors: Luisa Saraiva; Lili Wang; Martin Kammel; Andreas Kummrow; Eleanor Atkinson; Ji Youn Lee; Burhanettin Yalcinkaya; Muslum Akgöz; Jana Höckner; Andreas Ruf; Andrea Engel; Yu-Zhong Zhang; Orla O'Shea; Maria Paola Sassi; Carla Divieto; Tamara Lekishvili; Jonathan Campbell; Yingying Liu; Jing Wang; Richard Stebbings; Adolfas K Gaigalas; Peter Rigsby; Jörg Neukammer; Sandrine Vessillier Journal: Cytometry B Clin Cytom Date: 2019-02-20 Impact factor: 3.058
Authors: Carla Cristina Pedrosa de Lira de Morais; Juliana Dias Alves Pinto; Karen Wagner de Souza; Marina Izu; Luis Fernando da Silva Bouzas; Flávio Henrique Paraguassú-Braga Journal: Hematol Transfus Cell Ther Date: 2020-12-04