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- Title
Assessment of transient changes in oxygen diffusion of single red blood cells using a microfluidic analytical platform.
- Authors
Chng, Kevin Ziyang; Ng, Yan Cheng; Namgung, Bumseok; Tan, Justin Kok Soon; Park, Soyeon; Tien, Sim Leng; Leo, Hwa Liang; Kim, Sangho
- Abstract
Red blood cells (RBCs) capability to deliver oxygen (O2) has been routinely measured by P50. Although this defines the ability of RBCs to carry O2 under equilibrium states, it cannot determine the efficacy of O2 delivery in dynamic blood flow. Here, we developed a microfluidic analytical platform (MAP) that isolates single RBCs for assessing transient changes in their O2 release rate. We found that in vivo (biological) and in vitro (blood storage) aging of RBC could lead to an increase in the O2 release rate, despite a decrease in P50. Rejuvenation of stored RBCs (Day 42), though increased the P50, failed to restore the O2 release rate to basal level (Day 0). The temporal dimension provided at the single-cell level by MAP could shed new insights into the dynamics of O2 delivery in both physiological and pathological conditions. Kevin Ziyang Chng et al. develop a microfluidic platform using a fluorescence quenching approach to assess transient changes in oxygen release rate of single red blood cells. They observe that biologically older red blood cells have a faster O2 release rate than younger cells and that storage of blood enhances this release rate.
- Subjects
ERYTHROCYTES; MICROFLUIDICS; EQUILIBRIUM statistical mechanics; PHYSIOLOGY; BLOOD flow
- Publication
Communications Biology, 2021, Vol 4, Issue 1, p1
- ISSN
2399-3642
- Publication type
Article
- DOI
10.1038/s42003-021-01793-z