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Scientists have developed a way of assessing the ability of red blood cells to deliver oxygen by measuring their shape. This test could improve specialist transplant and transfusion practice as well as blood banking. The research is now published open access in eBioMedicine – part of the Lancet Discovery Science.

Large amount of blood bags in boxes and a researcher in the corner of the room

FlowScore (1) - a formula developed at Oxford University in collaboration with NHS Blood and Transplant - predicts how quickly red blood cells release their oxygen. This process is important for oxygenating the body’s tissues, including organs and muscles, particularly in people receiving large transfusions.

Healthy fresh red blood cells have a distinctive biconcave – or dumbbell – shape for efficient oxygen release. During refrigerated storage, red cells become energetically stressed and more spherical, which slows oxygen release. Using transplant kidneys, researchers at Oxford showed that perfusion with blood units that had undergone storage-related kinetic rundown was associated with poorer oxygen delivery, and that this could be restored by biochemically rejuvenating - or refreshing - the blood.

Factors affecting oxygen release from red cells were described at Oxford’s Department of Physiology, Anatomy, and Genetics but the testing method was too laborious for routine use in blood agencies working to improve the monitoring of blood stored for transfusion. To adapt the research findings to blood banking, NHS Blood and Transplant's Component Development Laboratory joined the project, providing blood samples stored according to NHS protocols and measurements from haematology analysers. 

During routine blood counts, haematology analysers use flow cytometry - a method that passes cells through a laser beam to study their characteristics. When light hits a cell, the pattern of scattering reveals information about their size and shape. It was found that this information accurately predicts oxygen release from red blood cells, and the predictive formula was called FlowScore (2)(3). The innovation makes measurements of red cell oxygen transport simpler, faster, and more accessible for laboratories worldwide.

 

Read the full story on the Department of Physiology, Anatomy and Genetics website.

 

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