Fluorescence Exclusion: A Simple Method to Assess Projected Surface, Volume and Morphology of Red Blood Cells Stored in Blood Bank

Red blood cells (RBC) ability to circulate is closely related to their surface area-to-volume ratio. A decrease in this ratio induces a decrease in RBC deformability that can lead to their retention and elimination in the spleen. We recently showed that a subpopulation of “small RBC” with reduced pr...

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Autores principales: Roussel, Camille, Monnier, Sylvain, Dussiot, Michael, Farcy, Elisabeth, Hermine, Olivier, Le Van Kim, Caroline, Colin, Yves, Piel, Matthieu, Amireault, Pascal, Buffet, Pierre A.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Frontiers Media S.A. 2018
Materias:
Medicine
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5989133/
https://www.ncbi.nlm.nih.gov/pubmed/29900172
http://dx.doi.org/10.3389/fmed.2018.00164
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author Roussel, Camille
Monnier, Sylvain
Dussiot, Michael
Farcy, Elisabeth
Hermine, Olivier
Le Van Kim, Caroline
Colin, Yves
Piel, Matthieu
Amireault, Pascal
Buffet, Pierre A.
author_facet Roussel, Camille
Monnier, Sylvain
Dussiot, Michael
Farcy, Elisabeth
Hermine, Olivier
Le Van Kim, Caroline
Colin, Yves
Piel, Matthieu
Amireault, Pascal
Buffet, Pierre A.
author_sort Roussel, Camille
collection PubMed
description Red blood cells (RBC) ability to circulate is closely related to their surface area-to-volume ratio. A decrease in this ratio induces a decrease in RBC deformability that can lead to their retention and elimination in the spleen. We recently showed that a subpopulation of “small RBC” with reduced projected surface area accumulated upon storage in blood bank concentrates, but data on the volume of these altered RBC are lacking. So far, single cell measurement of RBC volume has remained a challenging task achieved by a few sophisticated methods some being subject to potential artifacts. We aimed to develop a reproducible and ergonomic method to assess simultaneously RBC volume and morphology at the single cell level. We adapted the fluorescence exclusion measurement of volume in nucleated cells to the measurement of RBC volume. This method requires no pre-treatment of the cell and can be performed in physiological or experimental buffer. In addition to RBC volume assessment, brightfield images enabling a precise definition of the morphology and the measurement of projected surface area can be generated simultaneously. We first verified that fluorescence exclusion is precise, reproducible and can quantify volume modifications following morphological changes induced by heating or incubation in non-physiological medium. We then used the method to characterize RBC stored for 42 days in SAG-M in blood bank conditions. Simultaneous determination of the volume, projected surface area and morphology allowed to evaluate the surface area-to-volume ratio of individual RBC upon storage. We observed a similar surface area-to-volume ratio in discocytes (D) and echinocytes I (EI), which decreased in EII (7%) and EIII (24%), sphero-echinocytes (SE; 41%) and spherocytes (S; 47%). If RBC dimensions determine indeed the ability of RBC to cross the spleen, these modifications are expected to induce the rapid splenic entrapment of the most morphologically altered RBC (EIII, SE, and S) and further support the hypothesis of a rapid clearance of the “small RBC” subpopulation by the spleen following transfusion.
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spelling pubmed-59891332018-06-13 Fluorescence Exclusion: A Simple Method to Assess Projected Surface, Volume and Morphology of Red Blood Cells Stored in Blood Bank Roussel, Camille Monnier, Sylvain Dussiot, Michael Farcy, Elisabeth Hermine, Olivier Le Van Kim, Caroline Colin, Yves Piel, Matthieu Amireault, Pascal Buffet, Pierre A. Front Med (Lausanne) Medicine Red blood cells (RBC) ability to circulate is closely related to their surface area-to-volume ratio. A decrease in this ratio induces a decrease in RBC deformability that can lead to their retention and elimination in the spleen. We recently showed that a subpopulation of “small RBC” with reduced projected surface area accumulated upon storage in blood bank concentrates, but data on the volume of these altered RBC are lacking. So far, single cell measurement of RBC volume has remained a challenging task achieved by a few sophisticated methods some being subject to potential artifacts. We aimed to develop a reproducible and ergonomic method to assess simultaneously RBC volume and morphology at the single cell level. We adapted the fluorescence exclusion measurement of volume in nucleated cells to the measurement of RBC volume. This method requires no pre-treatment of the cell and can be performed in physiological or experimental buffer. In addition to RBC volume assessment, brightfield images enabling a precise definition of the morphology and the measurement of projected surface area can be generated simultaneously. We first verified that fluorescence exclusion is precise, reproducible and can quantify volume modifications following morphological changes induced by heating or incubation in non-physiological medium. We then used the method to characterize RBC stored for 42 days in SAG-M in blood bank conditions. Simultaneous determination of the volume, projected surface area and morphology allowed to evaluate the surface area-to-volume ratio of individual RBC upon storage. We observed a similar surface area-to-volume ratio in discocytes (D) and echinocytes I (EI), which decreased in EII (7%) and EIII (24%), sphero-echinocytes (SE; 41%) and spherocytes (S; 47%). If RBC dimensions determine indeed the ability of RBC to cross the spleen, these modifications are expected to induce the rapid splenic entrapment of the most morphologically altered RBC (EIII, SE, and S) and further support the hypothesis of a rapid clearance of the “small RBC” subpopulation by the spleen following transfusion. Frontiers Media S.A. 2018-05-30 /pmc/articles/PMC5989133/ /pubmed/29900172 http://dx.doi.org/10.3389/fmed.2018.00164 Text en Copyright © 2018 Roussel, Monnier, Dussiot, Farcy, Hermine, Le Van Kim, Colin, Piel, Amireault and Buffet. http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.
spellingShingle Medicine
Roussel, Camille
Monnier, Sylvain
Dussiot, Michael
Farcy, Elisabeth
Hermine, Olivier
Le Van Kim, Caroline
Colin, Yves
Piel, Matthieu
Amireault, Pascal
Buffet, Pierre A.
Fluorescence Exclusion: A Simple Method to Assess Projected Surface, Volume and Morphology of Red Blood Cells Stored in Blood Bank
title Fluorescence Exclusion: A Simple Method to Assess Projected Surface, Volume and Morphology of Red Blood Cells Stored in Blood Bank
title_full Fluorescence Exclusion: A Simple Method to Assess Projected Surface, Volume and Morphology of Red Blood Cells Stored in Blood Bank
title_fullStr Fluorescence Exclusion: A Simple Method to Assess Projected Surface, Volume and Morphology of Red Blood Cells Stored in Blood Bank
title_full_unstemmed Fluorescence Exclusion: A Simple Method to Assess Projected Surface, Volume and Morphology of Red Blood Cells Stored in Blood Bank
title_short Fluorescence Exclusion: A Simple Method to Assess Projected Surface, Volume and Morphology of Red Blood Cells Stored in Blood Bank
title_sort fluorescence exclusion: a simple method to assess projected surface, volume and morphology of red blood cells stored in blood bank
topic Medicine
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5989133/
https://www.ncbi.nlm.nih.gov/pubmed/29900172
http://dx.doi.org/10.3389/fmed.2018.00164
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