Simulated Oxygen Supply Efficiency Assessment to Represent Stored Red Blood Cells Quality
Zongtang Chu, Guoxing You, Weidan Li, Peilin Shu, Dong Qin, Lian Zhao, Hong Zhou, Ying Wang

TL;DR
This study introduces a new method to assess the quality of stored red blood cells by evaluating their oxygen supply efficiency using parameters like oxygen affinity and the Bohr effect.
Contribution
The novel contribution is a parameter system integrating oxygen affinity, cooperativity, and the Bohr effect to assess stored red blood cell quality.
Findings
The Bohr effect significantly influences oxygen supply efficiency and varies with environmental oxygen affinity.
Theoretical oxygen-release capacities differ notably between plateau and plain environments.
Stored rat red blood cells showed consistent trends in P50, Hill coefficient, and acid-base sensitivity index.
Abstract
Hemolysis rate is usually used as the acceptance criterion for stored red blood cells (RBCs) in clinical practice. However, there is a current lack of parameters for the characterization of hemoglobin quality. This study aimed to incorporate oxygen affinity, cooperativity, and the Bohr effect into a parameter system to monitor oxygen supply efficiency in stored RBCs, potentially serving as a basis for quality assessment. Han Chinese blood from plains, Tibetan blood from plateau, bovine hemoglobin (bHb), and a dextran–bovine hemoglobin conjugate (Dex20-bHb) were analyzed using the BLOODOX-2018. Oxygen affinity (P50) was determined by oxygen dissociation curves (ODCs) at pH = 7.4. Cooperativity was assessed through the Hill coefficient, calculated from the fitting range of the Hill equation. The Bohr effect was evaluated by the acid-base sensitivity index (SI) under simulated pH…
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Taxonomy
TopicsBlood transfusion and management · Hemoglobin structure and function · Blood properties and coagulation
