Structural Changes in the Surface of Red Blood Cell Membranes during Long-Term Donor Blood Storage

Structural Changes in the Surface of Red Blood Cell Membranes during Long-Term Donor Blood Storage

Objective: to study changes in the surface of red blood cell membranes of donor blood at the macro- and ultrastructural level during its storage for 30 days and to evaluate the functional state of the red blood cell membrane during the whole storage period. Material and methods. The investigation wa...

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Main Authors: V. V. Moroz, A. M. Golubev, A. M. Chernysh, E. K., Kozlova, V. Yu. Vasilyev, O. E Gudkova, V. A. Sergunova, M. S. Fedorova
Format: Article
Language:Russian
Published: Russian Academy of Medical Sciences 2012-02-01
Series:Obŝaâ Reanimatologiâ
Online Access:https://www.reanimatology.com/rmt/article/view/238
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spelling doaj-019ee2daa6f44786a51eb4bb436debee2021-07-28T21:21:52ZrusRussian Academy of Medical SciencesObŝaâ Reanimatologiâ1813-97792411-71102012-02-018110.15360/1813-9779-2012-1-5238Structural Changes in the Surface of Red Blood Cell Membranes during Long-Term Donor Blood StorageV. V. MorozA. M. GolubevA. M. ChernyshE. K., KozlovaV. Yu. VasilyevO. E GudkovaV. A. SergunovaM. S. FedorovaObjective: to study changes in the surface of red blood cell membranes of donor blood at the macro- and ultrastructural level during its storage for 30 days and to evaluate the functional state of the red blood cell membrane during the whole storage period. Material and methods. The investigation was conducted on human whole blood and packed red blood cells placed in the specialized packs containing the preservative CPDA-1, by using calibrated electroporation and atomic force microscopy and measuring plasma pH. Conclusion. The long-term, up to 30-day, storage of whole blood and packed red blood cells at 4°C was attended by lower plasma pH and increased hemolysis rate constant during calibrated electroporation and by the development of oxidative processes. The hemolysis rate constant was also higher in the packed red blood cells than that in the whole blood. On days 5—6, the membrane structure showed defects that developed, as the blood was stored, and caused irreversible cell membrane damage by day 30. Key words: donor blood, red blood cell membranes, atomic force microscopy.https://www.reanimatology.com/rmt/article/view/238
collection DOAJ
language Russian
format Article
sources DOAJ
author V. V. Moroz
A. M. Golubev
A. M. Chernysh
E. K., Kozlova
V. Yu. Vasilyev
O. E Gudkova
V. A. Sergunova
M. S. Fedorova
spellingShingle V. V. Moroz
A. M. Golubev
A. M. Chernysh
E. K., Kozlova
V. Yu. Vasilyev
O. E Gudkova
V. A. Sergunova
M. S. Fedorova
Structural Changes in the Surface of Red Blood Cell Membranes during Long-Term Donor Blood Storage
Obŝaâ Reanimatologiâ
author_facet V. V. Moroz
A. M. Golubev
A. M. Chernysh
E. K., Kozlova
V. Yu. Vasilyev
O. E Gudkova
V. A. Sergunova
M. S. Fedorova
author_sort V. V. Moroz
title Structural Changes in the Surface of Red Blood Cell Membranes during Long-Term Donor Blood Storage
title_short Structural Changes in the Surface of Red Blood Cell Membranes during Long-Term Donor Blood Storage
title_full Structural Changes in the Surface of Red Blood Cell Membranes during Long-Term Donor Blood Storage
title_fullStr Structural Changes in the Surface of Red Blood Cell Membranes during Long-Term Donor Blood Storage
title_full_unstemmed Structural Changes in the Surface of Red Blood Cell Membranes during Long-Term Donor Blood Storage
title_sort structural changes in the surface of red blood cell membranes during long-term donor blood storage
publisher Russian Academy of Medical Sciences
series Obŝaâ Reanimatologiâ
issn 1813-9779
2411-7110
publishDate 2012-02-01
description Objective: to study changes in the surface of red blood cell membranes of donor blood at the macro- and ultrastructural level during its storage for 30 days and to evaluate the functional state of the red blood cell membrane during the whole storage period. Material and methods. The investigation was conducted on human whole blood and packed red blood cells placed in the specialized packs containing the preservative CPDA-1, by using calibrated electroporation and atomic force microscopy and measuring plasma pH. Conclusion. The long-term, up to 30-day, storage of whole blood and packed red blood cells at 4°C was attended by lower plasma pH and increased hemolysis rate constant during calibrated electroporation and by the development of oxidative processes. The hemolysis rate constant was also higher in the packed red blood cells than that in the whole blood. On days 5—6, the membrane structure showed defects that developed, as the blood was stored, and caused irreversible cell membrane damage by day 30. Key words: donor blood, red blood cell membranes, atomic force microscopy.
url https://www.reanimatology.com/rmt/article/view/238
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AT amgolubev structuralchangesinthesurfaceofredbloodcellmembranesduringlongtermdonorbloodstorage
AT amchernysh structuralchangesinthesurfaceofredbloodcellmembranesduringlongtermdonorbloodstorage
AT ekkozlova structuralchangesinthesurfaceofredbloodcellmembranesduringlongtermdonorbloodstorage
AT vyuvasilyev structuralchangesinthesurfaceofredbloodcellmembranesduringlongtermdonorbloodstorage
AT oegudkova structuralchangesinthesurfaceofredbloodcellmembranesduringlongtermdonorbloodstorage
AT vasergunova structuralchangesinthesurfaceofredbloodcellmembranesduringlongtermdonorbloodstorage
AT msfedorova structuralchangesinthesurfaceofredbloodcellmembranesduringlongtermdonorbloodstorage
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