Creatine
phosphate is an important energy supply substance in muscle contraction metabolism, is the chemical energy reserve of smooth muscle and striated muscle, and is used in ATP resynthesis. Sodium creatine phosphate (phosphocreatinedisodium) is its medicinal form. Creatine phosphate sodium, can be used as a myocardial protectant, in the form of creatine phosphate plays a variety of important physiological roles in the body, is widely used in cardiac ischemia or cardiac surgery patients myocardial protection, and heart failure, myocardial infarction and cardiac arrhythmia and other cardiovascular diseases treatment. It can improve the cardiac function and heart rate variability in patients with ischemic cardiomyopathy. It can not only provide energy for cardiomyocytes when they are subjected to ischemia and hypoxia, but also protect the myocardial membrane from the invasion of harmful substances such as oxygen free radicals. It can also protect the myocardium in patients with valvular insufficiency after surgery, and is conducive to the recovery of cardiac function in patients with valvular insufficiency after surgery. It can improve myocardial enzyme and electrocardiogram significantly in the treatment of neonatal asphyxia, and has good efficacy and safety.
This product is the chemical energy reserve of heart and skeletal muscle, and is used for the resynthesis of ATP, providing energy for the actomyosin contraction process, and plays an important role in the energy metabolism of muscle contraction. Insufficient energy supply is an important factor in the formation and development of myocardial cell injury. 1. It has a significant protective effect on the systolic function of ischemic myocardium, which can fully recover the contractile force and rapidly decrease the diastolic blood pressure. 2. Maintain the content of adenosine triphosphate and creatine phosphate in cells, and Chemicalbook maintains myocardial energy reserve. 3. Reduce the loss of creatine kinase and reduce the damage of cell membrane. 4. It has anti-peroxide properties. 5. Improve myocardial microcirculation. Due to the existence of high energy phosphate bonds in phosphocreatine molecules, its high energy phosphate bonds can directly convert ADP into ATP under the action of phosphocreatinase, which can directly give energy to the body. As an intermediate product of glycolysis, sodium fructose diphosphate plays an indirect role through anaerobic metabolism.