Shanxian Chemical
SUPPLEMENTS
HydrogenPeroxideStoppingBleedingMechanism
On the principle of hydrogen peroxide hemostasis
The blood of the husband, if the important body fluid of the human body overflows outside the veins, it is a hemorrhage. And the hydrogen peroxide person has its own unique reason for hemostasis.
Hydrogen peroxide, chemically called hydrogen peroxide, is active. When applied to the place of bleeding, it encounters catalase in the blood and tissues, which undergoes a decomposition reaction. This reaction is rapid and releases oxygen instantaneously.
The oxygen released by
has multiple effects in the process of hemostasis. First, oxygen can mechanically compress tiny blood vessels. When bleeding occurs, tiny blood vessels break and blood overflows. The pressure of oxygen can make the walls of damaged blood vessels close to each other, and then close to prevent blood outflow. This is a physical hemostasis method.
Second, oxygen can change the local environment. Bacteria can easily multiply at the site of bleeding, affecting wound healing. The presence of oxygen can create an environment that is not conducive to the growth of anaerobic bacteria. Anaerobic bacteria can only survive in an anaerobic or micro-oxygen environment. The increase in oxygen makes it difficult to survive, reducing the possibility of infection, enabling wounds to heal stably, and indirectly helping to stop bleeding.
Furthermore, the new oxygen produced by the decomposition of hydrogen peroxide is highly oxidizing. This new oxygen can coagulate proteins. Blood contains many protein components, and the new oxygen acts with it to coagulate and denature the protein, forming a protective film on the surface of the wound, which can prevent the blood from continuing to flow out and achieve the purpose of hemostasis.
In summary, hydrogen peroxide stops hemostasis, which relies on its decomposition by enzymes to produce oxygen, and uses multiple mechanisms such as mechanical compression, environmental change, and protein coagulation to exert the effect of hemostasis. It is widely used in medical practice.
The blood of the husband, if the important body fluid of the human body overflows outside the veins, it is a hemorrhage. And the hydrogen peroxide person has its own unique reason for hemostasis.
Hydrogen peroxide, chemically called hydrogen peroxide, is active. When applied to the place of bleeding, it encounters catalase in the blood and tissues, which undergoes a decomposition reaction. This reaction is rapid and releases oxygen instantaneously.
The oxygen released by
has multiple effects in the process of hemostasis. First, oxygen can mechanically compress tiny blood vessels. When bleeding occurs, tiny blood vessels break and blood overflows. The pressure of oxygen can make the walls of damaged blood vessels close to each other, and then close to prevent blood outflow. This is a physical hemostasis method.
Second, oxygen can change the local environment. Bacteria can easily multiply at the site of bleeding, affecting wound healing. The presence of oxygen can create an environment that is not conducive to the growth of anaerobic bacteria. Anaerobic bacteria can only survive in an anaerobic or micro-oxygen environment. The increase in oxygen makes it difficult to survive, reducing the possibility of infection, enabling wounds to heal stably, and indirectly helping to stop bleeding.
Furthermore, the new oxygen produced by the decomposition of hydrogen peroxide is highly oxidizing. This new oxygen can coagulate proteins. Blood contains many protein components, and the new oxygen acts with it to coagulate and denature the protein, forming a protective film on the surface of the wound, which can prevent the blood from continuing to flow out and achieve the purpose of hemostasis.
In summary, hydrogen peroxide stops hemostasis, which relies on its decomposition by enzymes to produce oxygen, and uses multiple mechanisms such as mechanical compression, environmental change, and protein coagulation to exert the effect of hemostasis. It is widely used in medical practice.
Scan to WhatsApp
