BACKGROUND: Blood banking procedures are associated with elevated adherence of red blood cells (RBCs) to blood vessel wall endothelial cells (ECs), which can introduce a circulatory risk to recipients. This study was undertaken to examine the possibility of repairing this damage by a poststorage "rejuvenation" procedure before transfusion. STUDY DESIGN AND METHODS: Stored RBCs were treated with rejuvenation solution (Rejuvesol, enCyte Systems, Inc.), and their adhesion to cultured human microvascular ECs was determined as a function of shear stress using a cell flow properties analyzer. The adherence of rejuvenation-treated stored RBCs (stRBCs) was compared to that of untreated stRBCs and of freshly donated RBCs. RESULTS: Strong elevation of stRBC/EC adhesion was induced by cold storage and it correlated with translocation of phosphatidylserine (PS) to the RBC surface, a known mediator of RBC/EC adhesion. The role of RBC surface PS in stRBC/EC interaction was confirmed by the suppression of adhesion after the blocking of the stRBC surface PS with annexin V. Concomitantly, RBC storage elevated intracellular levels of reactive oxygen species (ROS) and Ca(2+), the latter known to facilitate PS externalization. Poststorage rejuvenation treatment of stRBCs reversed all the above changes (ROS, Ca(2+), PS), along with complete suppression of the enhanced RBC/EC adhesion, restoring it to that of normal, freshly collected RBCs. CONCLUSION: Poststorage RBC rejuvenation treatment is effective in reversing the storage-induced RBC/EC interaction. This provides further documentation for the potential clinical benefit of poststorage rejuvenation.
BACKGROUND: Blood banking procedures are associated with elevated adherence of red blood cells (RBCs) to blood vessel wall endothelial cells (ECs), which can introduce a circulatory risk to recipients. This study was undertaken to examine the possibility of repairing this damage by a poststorage "rejuvenation" procedure before transfusion. STUDY DESIGN AND METHODS: Stored RBCs were treated with rejuvenation solution (Rejuvesol, enCyte Systems, Inc.), and their adhesion to cultured human microvascular ECs was determined as a function of shear stress using a cell flow properties analyzer. The adherence of rejuvenation-treated stored RBCs (stRBCs) was compared to that of untreated stRBCs and of freshly donated RBCs. RESULTS: Strong elevation of stRBC/EC adhesion was induced by cold storage and it correlated with translocation of phosphatidylserine (PS) to the RBC surface, a known mediator of RBC/EC adhesion. The role of RBC surface PS in stRBC/EC interaction was confirmed by the suppression of adhesion after the blocking of the stRBC surface PS with annexin V. Concomitantly, RBC storage elevated intracellular levels of reactive oxygen species (ROS) and Ca(2+), the latter known to facilitate PS externalization. Poststorage rejuvenation treatment of stRBCs reversed all the above changes (ROS, Ca(2+), PS), along with complete suppression of the enhanced RBC/EC adhesion, restoring it to that of normal, freshly collected RBCs. CONCLUSION: Poststorage RBC rejuvenation treatment is effective in reversing the storage-induced RBC/EC interaction. This provides further documentation for the potential clinical benefit of poststorage rejuvenation.
Authors: Olga Mykhailova; Carly Olafson; Tracey R Turner; Angelo DʼAlessandro; Jason P Acker Journal: Transfusion Date: 2020-08-19 Impact factor: 3.157
Authors: Denise A Lopez Domowicz; Ian Welsby; Charles R Esther; Hongmei Zhu; Robert D Marek; Grace Lee; Nirmish Shah; Jessica L Poisson; Tim J McMahon Journal: Blood Transfus Date: 2020-03-17 Impact factor: 3.443
Authors: Christina Katsios; Lauren Griffith; Philip Spinella; Jacques Lacroix; Mark Crowther; Paul Hebert; Maureen Meade; William Geerts; Christian Rabbat; Deborah Cook Journal: Crit Care Date: 2011-11-02 Impact factor: 9.097