Measurement of Tissue Oxygen as a Novel Approach to Optimizing Red Blood Cell Quality Assessment.

Abstract

The effectiveness of blood transfusions can be impacted by storage and extensive processing techniques that involve treatment of red blood cells (RBCs) with pathogen reduction technologies (e.g., UV-light and chemical treatment), ex vivo stem cell derivation/maturation methods, and bioengineering of RBCs using nanotechnology. Therefore, there is a need to have methods that assess the evaluation of the effectiveness of transfusions to achieve their intended purpose: to increase oxygenation of critical tissues. Consequently, there has been intense interest in the development of techniques targeted at optimizing the assessment of RBC quality in preclinical and clinical settings. We provide a critical assessment of the ability of currently used methods to provide unambiguous information on oxygen levels in tissues and conclude that they cannot do this. This is because they are based on surrogates for the true goal of transfusion, which is to increase oxygenation of critical organs. This does not mean that they are valueless, but it does indicate that other methods are needed to provide direct measurements of oxygen in tissues. We report here on the initial results of a method that can provide direct assessment of the impact of the transfusion on tissue oxygen: EPR oximetry. It has the potential to provide such information in both preclinical and clinical settings for the assessment of blood quality posttransfusion.