The proposed project, entitled "HemOx Transfusion Study", investigates the functionality of red blood cells (erythrocytes) in the context of oxygen transport in the blood. Erythrocytes contain haemoglobin, a protein responsible for oxygen transport in the bloodstream. Haemoglobin can bind up to four oxygen molecules. This haemoglobin-oxygen binding is particular and efficient, allowing oxygen to be taken up easily in the lungs and released just as readily in oxygen-consuming tissues. In this way, large amounts of oxygen can be transported rapidly and efficiently despite its low solubility in blood. If a patient suffers significant blood loss, for example during surgery, the amount of oxygen-transporting haemoglobin molecules may become so low that a transfusion (administration) of packed red blood cells from a blood donor becomes necessary. In major surgical procedures, which are more frequently associated with blood transfusions, special devices are used to process blood lost from the surgical site and reinfuse it into the same patient. During the storage of packed red blood cells, storage-related damage to the erythrocytes occurs, affecting their shape and functionality. In particular, the haemoglobin-oxygen binding is impaired; the binding affinity increases markedly during storage as a result of metabolic changes within the erythrocytes. This study therefore aims to investigate whether these storage-related changes in packed red blood cells, compared with processed autologous blood from the patient, normalise again after administration in the body, and over what period of time. The rejuvenation of haemoglobin-oxygen binding functionality and oxygen transport capacity of transfused blood is critical for the patient. Understanding the dynamics of this process is intended to inform clinicians about the efficiency of their interventions and to stimulate further research. The intraoperative processing of autologous blood will be examined and analysed in comparison with the administration of packed red blood cells. In this way, the clinical value of processed autologous blood will be evaluated in comparison with packed red blood cells. In the longer term, the processing and/or optimisation of packed red blood cells prior to administration could improve patient care.
Age range
18 Years
Sex
ALL
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P50 (half pressure of hemoglobin oxygen saturation)
Timeframe: 10 min post transfusion (time point C)