View clinical trials related to Patient Blood Management.
Filter by:We used the preoperative intervention of iron sucrose in combination with human erythropoietin and vitamin C as an innovative combination therapy. This combined treatment strategy aims to improve perioperative anaemia in patients by promoting erythropoiesis and improving iron metabolism. Compared with previous perioperative intravenous iron supplementation, this innovative combination therapy strategy takes into account multiple aspects of iron metabolism as well as the biological mechanisms of erythropoiesis, providing a more comprehensive intervention. Management of perioperative anaemia in previous studies has largely relied on single intravenous iron supplementation therapy, and although this approach has been effective in raising iron levels, its effectiveness may be limited in patients who have impaired iron utilisation or in situations where concurrent stimulation of erythropoiesis is required. The use of iron sucrose in combination with human erythropoietin and vitamin C, on the other hand, is based on an integrative therapeutic concept aimed at providing a more comprehensive response to perioperative anaemia by simultaneously promoting effective iron utilisation and erythropoiesis.
Avoidance of unnecessary blood transfusions has always been a focus of clinical research. The rate of perioperative red blood cell transfusion in patients undergoing cardiac surgery under cardiopulmonary bypass reaches between 50-70%, and the intraoperative red blood cell transfusion rate is 30-50%. Regarding whether and when to perform a blood transfusion, it is necessary to comprehensively consider the benefits and risks brought by blood transfusion. Previous studies on blood transfusion strategies have mainly focused on the hemoglobin threshold, but the hemoglobin level does not fully reflect the level of tissue oxygenation. Mixed venous blood oxygen saturation has been widely studied as a valuable indicator reflecting the balance of oxygen delivery and oxygen consumption. But due to the difficulty of placing a pulmonary artery floating catheter for monitoring, its clinical application is limited. Central venous oxygen saturation requires only a small collection of blood samples, which can reflect the oxygen saturation of the superior vena cava, and studies have shown that it can effectively guide the blood transfusion of patients undergoing cardiac surgery. Existing studies have shown that in critically ill patients, the use of arterial-venous oxygen difference > 3.7 mL as an indicator to guide blood transfusion can lead to a higher 90-day survival rate. However, the relationship between the arterial-venous oxygen difference and the incidence of adverse events in cardiac surgery patients under CPB remains unclear. Whether increasing the arterial-venous oxygen difference during surgery can reduce the incidence of postoperative adverse events remains to be clarified. This study intends to collect intraoperative arterial blood and central venous blood samples from cardiac surgery patients undergoing CPB, and analyze the relationship between arterial-venous oxygen difference and the incidence of postoperative adverse events.