BACKGROUND: Experimental additive solutions (EASs) containing saline, adenine, glucose, mannitol and disodium phosphate can support RBCs for 9 or 10 weeks if used in 200- or 300-mL volumes. The effects of variations in the electrolyte composition and volume of EASs were explored. STUDY DESIGN AND METHODS: In three four-arm studies, 24 RBC units were pooled in groups of 4 and realiquoted as test units to ensure that all donors were equally represented in each study arm. In Study 1, units were stored for 11 weeks in EAS containing 0, 10, 20, or 30 mmol per L of sodium bicarbonate. In Study 2, units were stored for 9 weeks in EAS containing 26, 50, 100, or 150 mmol per L of sodium chloride. In Study 3, units were stored in 100 or 200 mL of AS-3 or EAS-61. RBC ATP concentrations and hemolysis were measured weekly. RESULTS: Increasing the sodium bicarbonate content of EASs increased the pH throughout storage and increased RBC ATP concentrations in the later phases of storage, but it had no effect on hemolysis. Increased sodium chloride content of EASs led to lower RBC ATP concentrations and increased hemolysis. In EAS-61, RBC ATP concentrations were increased throughout storage, and hemolysis was lower than that of RBCs stored in AS-3. CONCLUSION: RBC ATP synthesis is highly dependent on the pH of the AS. Hemolysis is affected by the salt content and volume of the AS.
BACKGROUND: Experimental additive solutions (EASs) containing saline, adenine, glucose, mannitol and disodium phosphate can support RBCs for 9 or 10 weeks if used in 200- or 300-mL volumes. The effects of variations in the electrolyte composition and volume of EASs were explored. STUDY DESIGN AND METHODS: In three four-arm studies, 24 RBC units were pooled in groups of 4 and realiquoted as test units to ensure that all donors were equally represented in each study arm. In Study 1, units were stored for 11 weeks in EAS containing 0, 10, 20, or 30 mmol per L of sodium bicarbonate. In Study 2, units were stored for 9 weeks in EAS containing 26, 50, 100, or 150 mmol per L of sodium chloride. In Study 3, units were stored in 100 or 200 mL of AS-3 or EAS-61. RBC ATP concentrations and hemolysis were measured weekly. RESULTS: Increasing the sodium bicarbonate content of EASs increased the pH throughout storage and increased RBC ATP concentrations in the later phases of storage, but it had no effect on hemolysis. Increased sodium chloride content of EASs led to lower RBC ATP concentrations and increased hemolysis. In EAS-61, RBC ATP concentrations were increased throughout storage, and hemolysis was lower than that of RBCs stored in AS-3. CONCLUSION: RBC ATP synthesis is highly dependent on the pH of the AS. Hemolysis is affected by the salt content and volume of the AS.
Authors: Erin M M Weisenhorn; Thomas J van T Erve; Nicholas M Riley; John R Hess; Thomas J Raife; Joshua J Coon Journal: Mol Cell Proteomics Date: 2016-10-24 Impact factor: 5.911
Authors: Hongmei Zhu; Rahima Zennadi; Bruce X Xu; Jerry P Eu; Jordan A Torok; Marilyn J Telen; Timothy J McMahon Journal: Crit Care Med Date: 2011-11 Impact factor: 7.598
Authors: Roy L Sutliff; John D Roback; Jason T Alexander; Alexander M El-Ali; James L Newman; Sulaiman Karatela; Benjamin L Predmore; David J Lefer Journal: Transfusion Date: 2013-03-11 Impact factor: 3.157
Authors: Amy T Makley; Michael D Goodman; Lou Ann W Friend; Jay A Johannigman; Warren C Dorlac; Alex B Lentsch; Timothy A Pritts Journal: Shock Date: 2010-07 Impact factor: 3.454
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