Two-step process of cytoskeletal structural damage during long-term storage of packed red blood cells

Abstract

Background - Storage of packed red blood cells (PRBC) for 42 days causes morphological, structural, and functional changes in the red cells. To assess the quality of stored PRBC, it is important to evaluate the main components of the product. The aim of this study was to evaluate the kinetics of the structural transformations in the cytoskeleton of red cells during long-term storage (up to 42 days).
Materials and methods - Bags of PRBC were stored with CPD/SAGM solution at +4 °?. Cytoskeletal parameters were measured on days 3, 12, 19, 21, 24, 28, 35, and 42 of storage to determine their changes. Atomic force microscopy was used to obtain images and analyse the parameters of the cytoskeletal network. As the storage time increased, a general PRBC test was performed. Membrane fixatives were not used at any stage of the preparation of the specimens for cytoskeletal imaging.
Results - When PRBC were stored for 42 days, the main changes to the cytoskeletal mesh included rupture of filaments, merger of small pores into larger ones, a decrease of the number of pores, thickening of filaments, and an increase of membrane stiffness. A process of irreversible changes to the cytoskeleton started on days 19-21. A kinetic model of changes in the parameters of the cytoskeletal mesh with time of PRBC storage was created.
Discussion - Two stages of impairment in cytoskeletal elements were found: rupture of filaments and clustering of protein components. The typical time of development and specifics of these stages are discussed. The consequences of the altered configuration of the cytoskeleton are also discussed. Destruction of the red cell cytoskeleton can have a negative effect on the efficacy of blood transfusion and increase the risk of post-transfusion complications. Our findings can be used in clinical medicine to evaluate the quality of PRBC for blood transfusion as well as for studies of the molecular organisation of red cells undergoing various types of physical and chemical treatment.