Institute of Fundamental Technological Research
Polish Academy of Sciences

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Peter A. Smethurst


Recent publications
1.  Rabcuka J., Smethurst P. A., Dammert K., Saker J., Aran G., Walsh G. M., Tan J. C. G., Codinach M., McTaggart K., Marks D. C., Bakker S. J. L., McMahon A., Di Angelantonio E., Roberts D. J., Błoński S., Korczyk P.M., Shirakami A., Cardigan R., Swietach P., Assessing the kinetics of oxygen-unloading from red cells using FlowScore, a flow-cytometric proxy of the functional quality of blood, eBioMedicine, ISSN: 2352-3964, DOI: 10.1016/j.ebiom.2024.105498, Vol.111, pp.105498-105498, 2025

Abstract:
Background
Metrics evaluating the functional quality of red blood cells (RBCs) must consider their role in oxygen delivery. Whereas oxygen-carrying capacity is routinely reported using haemoglobin assays, the rate of oxygen exchange is not measured, yet also important for tissue oxygenation. Since oxygen-unloading depends on the diffusion pathlength inside RBCs, cell geometry offers a plausible surrogate.
Methods
We related the time-constant of oxygen-unloading (τ), measured using single-cell oxygen saturation imaging, with flow-cytometric variables recorded on a haematology analyser. Experiments compared freshly-drawn RBCs with stored RBCs, wherein metabolic run-down and spherical remodelling hinder oxygen unloading.
Findings
Multivariable regression related τ to a ratio of side- and forward-scatter, referred to herein as FlowScore. FlowScore was able to distinguish, with sensitivity and specificity >80%, freshly drawn blood from blood that underwent storage-related kinetic attrition in O2-handling. Moreover, FlowScore predicted τ restoration upon biochemical rejuvenation of stored blood. Since RBC geometry and metabolic state are related, variants of FlowScore estimated [ATP] and [2,3-diphosphoglycerate]. The veracity of FlowScore was confirmed by four blood-banking systems (Australia, Canada, England, Spain). Applying FlowScore to data from the COMPARE study revealed a positive association with the time-delay from sample collection to measurement, which was verified experimentally. The LifeLines dataset revealed age, sex, and smoking among factors affecting FlowScore.
Interpretation
We establish FlowScore as a widely-accessible and cost-effective surrogate of RBC oxygen-unloading kinetics. As a metric of a cellular process that is sensitive to storage and disease, we propose FlowScore as an RBC quality marker for blood-banking and haematology.

Keywords:
Haematology,Erythrocytes,Storage lesion,Assay,Oxygen transport,Transfusion

Affiliations:
Rabcuka J. - other affiliation
Smethurst P. A. - other affiliation
Dammert K. - other affiliation
Saker J. - other affiliation
Aran G. - other affiliation
Walsh G. M. - other affiliation
Tan J. C. G. - other affiliation
Codinach M. - other affiliation
McTaggart K. - other affiliation
Marks D. C. - other affiliation
Bakker S. J. L. - other affiliation
McMahon A. - other affiliation
Di Angelantonio E. - other affiliation
Roberts D. J. - other affiliation
Błoński S. - IPPT PAN
Korczyk P.M. - IPPT PAN
Shirakami A. - other affiliation
Cardigan R. - other affiliation
Swietach P. - other affiliation
2.  Rabcuka J., Błoński S., Meli A., Sowemimo-Coker S., Zaremba D., Stephenson D., Dzieciatkowska M., Nerguizian D., Cardigan R., Korczyk P.M., Smethurst P.A., D’Alessandro A., Swietach P., Metabolic reprogramming under hypoxic storage preserves faster oxygen unloading from stored red blood cells, Blood Advances, ISSN: 2473-9529, DOI: 10.1182/bloodadvances.2022007774, Vol.6, No.18, pp.5415-5428, 2022

Abstract:
Stored red blood cells (RBCs) incur biochemical and morphological changes, collectively termed the storage lesion. Functionally, the storage lesion manifests as slower oxygen unloading from RBCs, which may compromise the efficacy of transfusions where the clinical imperative is to rapidly boost oxygen delivery to tissues. Recent analysis of large real-world data linked longer storage with increased recipient mortality. Biochemical rejuvenation with a formulation of adenosine, inosine, and pyruvate can restore gas-handling properties, but its implementation is impractical for most clinical scenarios. We tested whether storage under hypoxia, previously shown to slow biochemical degradation, also preserves gas-handling properties of RBCs. A microfluidic chamber, designed to rapidly switch between oxygenated and anoxic superfusates, was used for single-cell oxygen saturation imaging on samples stored for up to 49 days. Aliquots were also analyzed flow cytometrically for side-scatter (a proposed proxy of O2 unloading kinetics), metabolomics, lipidomics, and redox proteomics. For benchmarking, units were biochemically rejuvenated at 4 weeks of standard storage. Hypoxic storage hastened O2 unloading in units stored to 35 days, an effect that correlated with side-scatter but was not linked to posttranslational modifications of hemoglobin. Although hypoxic storage and rejuvenation produced distinct biochemical changes, a subset of metabolites including pyruvate, sedoheptulose 1-phosphate, and 2/3 phospho-d-glycerate, was a common signature that correlated with changes in O2 unloading. Correlations between gas handling and lipidomic changes were modest. Thus, hypoxic storage of RBCs preserves key metabolic pathways and O2 exchange properties, thereby improving the functional quality of blood products and potentially influencing transfusion outcomes.

Keywords:
hypoxia, Hemanext, erythrocyte, hemoglobin, oxidative stress, microfluidics

Affiliations:
Rabcuka J. - other affiliation
Błoński S. - IPPT PAN
Meli A. - other affiliation
Sowemimo-Coker S. - other affiliation
Zaremba D. - IPPT PAN
Stephenson D. - other affiliation
Dzieciatkowska M. - other affiliation
Nerguizian D. - other affiliation
Cardigan R. - other affiliation
Korczyk P.M. - IPPT PAN
Smethurst P.A. - other affiliation
D’Alessandro A. - other affiliation
Swietach P. - other affiliation

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