BACKGROUND: Hypothermic storage transforms red blood cells (RBC) from smooth biconcave discocytes into increasingly spherical spiculated echinocytes and, ultimately, fragile spherocytes (S). Individual cells undergo this transformation at different rates, producing a heterogeneous mixture of RBCs at all stages of echinocytosis in each unit of stored blood. Here we investigated how washing (known to positively affect RBC properties) changes morphology of individual RBCs at the single-cell level. STUDY DESIGN AND METHODS: We tracked the change in shape of individual RBCs (n = 2870; drawn from six 4- to 6-week-old RBC units) that were confined in an array of microfluidic wells during washing in saline (n = 1095), 1% human serum albumin (1% HSA) solution (n = 999), and the autologous storage supernatant (control, n = 776). RESULTS: Shape recovery proceeded through the disappearance of spicules followed by the progressive smoothening of the RBC contour, with the majority of changes occurring within the initial 10 minutes of being exposed to the washing solution. Approximately 57% of all echinocytes recovered by at least one morphologic class when washed in 1% HSA (36% for normal saline), with 3% of cells in late-stage echinocytosis restoring their discoid shape completely. Approximately one-third of all spherocytic cells were lysed in either washing solution. Cells washed in their autologous storage supernatant continued to deteriorate during washing. CONCLUSION: Our findings suggest that the replacement of storage supernatant with a washing solution during washing induces actual shape recovery for RBCs in all stages of echinocytosis, except for S that undergo lysis instead.
BACKGROUND: Hypothermic storage transforms red blood cells (RBC) from smooth biconcave discocytes into increasingly spherical spiculated echinocytes and, ultimately, fragile spherocytes (S). Individual cells undergo this transformation at different rates, producing a heterogeneous mixture of RBCs at all stages of echinocytosis in each unit of stored blood. Here we investigated how washing (known to positively affect RBC properties) changes morphology of individual RBCs at the single-cell level. STUDY DESIGN AND METHODS: We tracked the change in shape of individual RBCs (n = 2870; drawn from six 4- to 6-week-old RBC units) that were confined in an array of microfluidic wells during washing in saline (n = 1095), 1% human serum albumin (1% HSA) solution (n = 999), and the autologous storage supernatant (control, n = 776). RESULTS: Shape recovery proceeded through the disappearance of spicules followed by the progressive smoothening of the RBC contour, with the majority of changes occurring within the initial 10 minutes of being exposed to the washing solution. Approximately 57% of all echinocytes recovered by at least one morphologic class when washed in 1% HSA (36% for normal saline), with 3% of cells in late-stage echinocytosis restoring their discoid shape completely. Approximately one-third of all spherocytic cells were lysed in either washing solution. Cells washed in their autologous storage supernatant continued to deteriorate during washing. CONCLUSION: Our findings suggest that the replacement of storage supernatant with a washing solution during washing induces actual shape recovery for RBCs in all stages of echinocytosis, except for S that undergo lysis instead.
Authors: Jill M Cholette; Kelly F Henrichs; George M Alfieris; Karen S Powers; Richard Phipps; Sherry L Spinelli; Michael Swartz; Francisco Gensini; L Eugene Daugherty; Emily Nazarian; Jeffrey S Rubenstein; Dawn Sweeney; Michael Eaton; Norma B Lerner; Neil Blumberg Journal: Pediatr Crit Care Med Date: 2012-05 Impact factor: 3.624
Authors: Francesca Rapido; Gary M Brittenham; Sheila Bandyopadhyay; Francesca La Carpia; Camilla L'Acqua; Donald J McMahon; Abdelhadi Rebbaa; Boguslaw S Wojczyk; Jane Netterwald; Hangli Wang; Joseph Schwartz; Andrew Eisenberger; Mark Soffing; Randy Yeh; Chaitanya Divgi; Yelena Z Ginzburg; Beth H Shaz; Sujit Sheth; Richard O Francis; Steven L Spitalnik; Eldad A Hod Journal: J Clin Invest Date: 2016-12-12 Impact factor: 14.808
Authors: Elliott Bennett-Guerrero; Tim H Veldman; Allan Doctor; Marilyn J Telen; Thomas L Ortel; T Scott Reid; Melissa A Mulherin; Hongmei Zhu; Raymond D Buck; Robert M Califf; Timothy J McMahon Journal: Proc Natl Acad Sci U S A Date: 2007-10-11 Impact factor: 11.205