Abstract
Hemoglobin, the oxygen carrying protein, ferries nearly all bodily oxygen from the lungs to cells and tissues in need. Blood oxygen saturation (sO2) thus plays an important role in maintaining energy homeostasis throughout the body. Clinical and research tools have been developed to monitor sO2 at a wide range of temporal and spatial scales. However, real-time quantification of sO2 at single red blood cell (RBC) resolution remains challenging. Such capability is critically important to study energy metabolism in heterogeneous tissues including brain and tumor tissue. In this work, we develop a ratiometric transient absorption microscopy technique to image hemoglobin sO2. By exploiting differences in transient lifetime kinetics betweenoxyhemoglobinanddeoxyhemoglobin, we directly quantified the sO2 of single RBCs in real-time without the need for injection of exogenous agents. This simple and high-speed nonlinear optical imaging technique is well suited for in vitro and in vivo quantification of sO2.
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