BACKGROUND: Some countries have limited the maximum allowable storage duration for red cells to 5 weeks before transfusion. In the US, red blood cells can be stored for up to 6 weeks, but randomized trials have not assessed the effects of this final week of storage on clinical outcomes. METHODS:Sixty healthy adult volunteers were randomized to a single standard, autologous, leukoreduced, packed red cell transfusion after 1, 2, 3, 4, 5, or 6 weeks of storage (n = 10 per group). 51-Chromium posttransfusion red cell recovery studies were performed and laboratory parameters measured before and at defined times after transfusion. RESULTS: Extravascular hemolysis after transfusion progressively increased with increasing storage time (P < 0.001 for linear trend in the AUC of serum indirect bilirubin and iron levels). Longer storage duration was associated with decreasing posttransfusion red cell recovery (P = 0.002), decreasing elevations in hematocrit (P = 0.02), and increasing serum ferritin (P < 0.0001). After 6 weeks of refrigerated storage, transfusion was followed by increases in AUC for serum iron (P < 0.01), transferrin saturation (P < 0.001), and nontransferrin-bound iron (P < 0.001) as compared with transfusion after 1 to 5 weeks of storage. CONCLUSIONS: After 6 weeks of refrigerated storage, transfusion of autologous red cells to healthy human volunteers increased extravascular hemolysis, saturated serum transferrin, and produced circulating nontransferrin-bound iron. These outcomes, associated with increased risks of harm, provide evidence that the maximal allowable red cell storage duration should be reduced to the minimum sustainable by the blood supply, with 35 days as an attainable goal.REGISTRATION. ClinicalTrials.gov NCT02087514. FUNDING: NIH grant HL115557 and UL1 TR000040.
RCT Entities:
BACKGROUND: Some countries have limited the maximum allowable storage duration for red cells to 5 weeks before transfusion. In the US, red blood cells can be stored for up to 6 weeks, but randomized trials have not assessed the effects of this final week of storage on clinical outcomes. METHODS: Sixty healthy adult volunteers were randomized to a single standard, autologous, leukoreduced, packed red cell transfusion after 1, 2, 3, 4, 5, or 6 weeks of storage (n = 10 per group). 51-Chromium posttransfusion red cell recovery studies were performed and laboratory parameters measured before and at defined times after transfusion. RESULTS:Extravascular hemolysis after transfusion progressively increased with increasing storage time (P < 0.001 for linear trend in the AUC of serum indirect bilirubin and iron levels). Longer storage duration was associated with decreasing posttransfusion red cell recovery (P = 0.002), decreasing elevations in hematocrit (P = 0.02), and increasing serum ferritin (P < 0.0001). After 6 weeks of refrigerated storage, transfusion was followed by increases in AUC for serum iron (P < 0.01), transferrin saturation (P < 0.001), and nontransferrin-bound iron (P < 0.001) as compared with transfusion after 1 to 5 weeks of storage. CONCLUSIONS: After 6 weeks of refrigerated storage, transfusion of autologous red cells to healthy human volunteers increased extravascular hemolysis, saturated serum transferrin, and produced circulating nontransferrin-bound iron. These outcomes, associated with increased risks of harm, provide evidence that the maximal allowable red cell storage duration should be reduced to the minimum sustainable by the blood supply, with 35 days as an attainable goal.REGISTRATION. ClinicalTrials.gov NCT02087514. FUNDING: NIH grant HL115557 and UL1 TR000040.
Authors: Louise de Swart; Jan C M Hendriks; Lisa N van der Vorm; Z Ioav Cabantchik; Patricia J Evans; Eldad A Hod; Gary M Brittenham; Yael Furman; Boguslaw Wojczyk; Mirian C H Janssen; John B Porter; Vera E J M Mattijssen; Bart J Biemond; Marius A MacKenzie; Raffaella Origa; Renzo Galanello; Robert C Hider; Dorine W Swinkels Journal: Haematologica Date: 2015-09-18 Impact factor: 9.941
Authors: Eldad A Hod; Ning Zhang; Set A Sokol; Boguslaw S Wojczyk; Richard O Francis; Daniel Ansaldi; Kevin P Francis; Phyllis Della-Latta; Susan Whittier; Sujit Sheth; Jeanne E Hendrickson; James C Zimring; Gary M Brittenham; Steven L Spitalnik Journal: Blood Date: 2010-03-18 Impact factor: 22.113
Authors: Marie E Steiner; Paul M Ness; Susan F Assmann; Darrell J Triulzi; Steven R Sloan; Meghan Delaney; Suzanne Granger; Elliott Bennett-Guerrero; Morris A Blajchman; Vincent Scavo; Jeffrey L Carson; Jerrold H Levy; Glenn Whitman; Pamela D'Andrea; Shelley Pulkrabek; Thomas L Ortel; Larissa Bornikova; Thomas Raife; Kathleen E Puca; Richard M Kaufman; Gregory A Nuttall; Pampee P Young; Samuel Youssef; Richard Engelman; Philip E Greilich; Ronald Miles; Cassandra D Josephson; Arthur Bracey; Rhonda Cooke; Jeffrey McCullough; Robert Hunsaker; Lynne Uhl; Janice G McFarland; Yara Park; Melissa M Cushing; Charles T Klodell; Ravindra Karanam; Pamela R Roberts; Cornelius Dyke; Eldad A Hod; Christopher P Stowell Journal: N Engl J Med Date: 2015-04-09 Impact factor: 91.245
Authors: Dean A Fergusson; Paul Hébert; Debora L Hogan; Louise LeBel; Nicole Rouvinez-Bouali; John A Smyth; Koravangattu Sankaran; Alan Tinmouth; Morris A Blajchman; Lajos Kovacs; Christian Lachance; Shoo Lee; C Robin Walker; Brian Hutton; Robin Ducharme; Katelyn Balchin; Tim Ramsay; Jason C Ford; Ashok Kakadekar; Kuppuchipalayam Ramesh; Stan Shapiro Journal: JAMA Date: 2012-10-10 Impact factor: 56.272
Authors: Marion C Lanteri; Tamir Kanias; Sheila Keating; Mars Stone; Yuelong Guo; Grier P Page; Donald J Brambilla; Stacy M Endres-Dighe; Alan E Mast; Walter Bialkowski; Pam D'Andrea; Ritchard G Cable; Bryan R Spencer; Darrell J Triulzi; Edward L Murphy; Steven Kleinman; Mark T Gladwin; Michael P Busch Journal: Transfusion Date: 2018-11-08 Impact factor: 3.157
Authors: Angelo D'Alessandro; Rachel Culp-Hill; Julie A Reisz; Mikayla Anderson; Xiaoyun Fu; Travis Nemkov; Sarah Gehrke; Connie Zheng; Tamir Kanias; Yuelong Guo; Grier Page; Mark T Gladwin; Steve Kleinman; Marion Lanteri; Mars Stone; Michael Busch; James C Zimring Journal: Transfusion Date: 2018-10-24 Impact factor: 3.157