Extended supercooled storage of red blood cells

Red blood cell (RBC) transfusions facilitate many life-saving acute and chronic interventions. Transfusions are enabled through the gold-standard hypothermic storage of RBCs. Today, the demand for RBC units is unfulfilled, partially due to the limited storage time, 6 weeks, in hypothermic storage. T...

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Published in:Communications biology 2024-06, Vol.7 (1), p.765-9, Article 765
Main Authors: Isiksacan, Ziya, William, Nishaka, Senturk, Rahime, Boudreau, Luke, Wooning, Celine, Castellanos, Emily, Isiksacan, Salih, Yarmush, Martin L., Acker, Jason P., Usta, O. Berk
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631/61
631/80
692/308
Antioxidants
Antioxidants - metabolism
Biomedical and Life Sciences
Blood
Blood Preservation - methods
Cold Temperature
Cryopreservation - methods
Erythrocytes
Erythrocytes - cytology
Hematocrit
Humans
Life Sciences
Oxidative Stress
Resveratrol
Time Factors
Vitamin E
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container_title Communications biology
container_volume 7
creator Isiksacan, Ziya
William, Nishaka
Senturk, Rahime
Boudreau, Luke
Wooning, Celine
Castellanos, Emily
Isiksacan, Salih
Yarmush, Martin L.
Acker, Jason P.
Usta, O. Berk
description Red blood cell (RBC) transfusions facilitate many life-saving acute and chronic interventions. Transfusions are enabled through the gold-standard hypothermic storage of RBCs. Today, the demand for RBC units is unfulfilled, partially due to the limited storage time, 6 weeks, in hypothermic storage. This time limit stems from high metabolism-driven storage lesions at +1-6 °C. A recent and promising alternative to hypothermic storage is the supercooled storage of RBCs at subzero temperatures, pioneered by our group. Here, we report on long-term supercooled storage of human RBCs at physiological hematocrit levels for up to 23 weeks. Specifically, we assess hypothermic RBC additive solutions for their ability to sustain supercooled storage. We find that a commercially formulated next-generation solution (Erythro-Sol 5) enables the best storage performance and can form the basis for further improvements to supercooled storage. Our analyses indicate that oxidative stress is a prominent time- and temperature-dependent injury during supercooled storage. Thus, we report on improved supercooled storage of RBCs at −5 °C by supplementing Erythro-Sol 5 with the exogenous antioxidants, resveratrol, serotonin, melatonin, and Trolox. Overall, this study shows the long-term preservation potential of supercooled storage of RBCs and establishes a foundation for further improvement toward clinical translation. This study explores the premise of extended – up to 23 weeks – supercooled storage of human red blood cells in modern and traditional hypothermic additive solutions and the impact of antioxidant supplementation, in comparison to hypothermic storage.
doi_str_mv 10.1038/s42003-024-06463-4
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subjects 631/61
631/80
692/308
Antioxidants
Antioxidants - metabolism
Biomedical and Life Sciences
Blood
Blood Preservation - methods
Cold Temperature
Cryopreservation - methods
Erythrocytes
Erythrocytes - cytology
Hematocrit
Humans
Life Sciences
Oxidative Stress
Resveratrol
Time Factors
Vitamin E
title Extended supercooled storage of red blood cells
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