Using redox potential as a feasible marker for banked blood quality and the state of oxidative stress in stored red blood cells

Background Stored red blood cells (RBCs) may undergo oxidative stress over time, with functional changes affecting oxygen delivery. Central to these changes are oxidation-reduction (redox) reactions and redox potential (RP) that must be maintained for cell function. RP imbalance can lead to oxidative stress that may contribute to storage lesions. This study's purpose was to identify changes in RP over time in banked RBCs, and among RBCs of similar age. Methods Multiple random RBC segments from RBC units were tested (n = 32), ranging in age from 5 to 40 days, at 5-day intervals. RP was recorded by measuring open circuit potential of RBCs using nanoporous gold electrodes with Ag/AgCl reference. RP measures were also performed on peripheral venous blood from 10 healthy volunteers. RP measures were compared between RBC groups, and with volunteer blood. Results Stored RBCs show time-dependent RP increases. There were significant differences in Day 5 RP compared to all other groups (p <= 0.005), Day 10-15 vs. ages >= Day 20 (p <= 0.025), Day 20-25 vs. Day 40 (p = 0.039), and all groups compared to healthy volunteers. RP became more positive over time suggesting ongoing oxidation as RBCs age; however, storage time alone was not predictive of RP measured in a particular unit/segment. Conclusions There are significant differences in RP between freshly stored RBCs and all others, with RP becoming more positive over time. However, storage time alone does not predict RP, indicating RP screening may be an important measure of RBC oxidative stress and serve as an RBC quality marker.

Automated summary

Stored red blood cells undergo oxidative stress over time, leading to increased oxidation as cells age. However, storage time alone is not sufficient to predict the measured RP in a particular unit or segment. RP screening may be an important measure of RBC oxidative stress and quality marker.