Learn about Serrapeptase
Serrapeptase, also known as Serrapeptase or Serratopeptidase, is a proteolytic enzyme derived from the intestines of silkworms. It was originally isolated from Serratia marcescens E-15 and was discovered in the 1960s. Serrapeptase exists naturally in the intestines of silkworms in nature and has been widely used in the medical field.
Serrapeptase has many advantages, such as it is a pure natural, safe and non-toxic protein with strong hydrolysis ability and a wide range of action. At a certain temperature and pH value, it can decompose large molecular proteins into products such as polypeptides and amino acids, forming a unique hydrolysis flavor.
Serrapeptase also has the function of decomposing mucus and pus, can liquefy pus and sputum, accelerate excretion, and promote cell regeneration, which can help antibiotics transfer to the lesions and enhance the antibacterial effect of antibiotics.
As a biologically active substance, serrapeptase is susceptible to the inhibition and destruction of heavy metal ions (Fe3+, Cu2+, Hg+, Pb+, etc.) and oxidants, and should be avoided during storage or use. Storage for too long or in unfavorable conditions will reduce the enzyme activity to varying degrees. If the temperature and humidity are too high, it is necessary to increase the dosage appropriately when using it.
The main advantage of serrapeptase is its anti-inflammatory properties, which have been shown to reduce inflammation and pain associated with arthritis and carpal tunnel syndrome. In addition, it can also be used to reduce plaques that block arterial blood flow, thereby preventing the occurrence of stroke. Serrapeptase can also dramatically reduce pain and swelling after dental surgery, and is commonly used in Japan to treat chronic airway diseases.
What is the source and production process of serrapeptase?
The source of serrapeptase is mainly silkworm, a small animal unique to China. Researchers have found that in the intestines of silkworms, there is a special serrapeptase that can effectively inhibit inflammation in the body.
Serrapeptase was originally isolated from the intestines of silkworms. This enzyme exists naturally in the intestines of silkworms and was artificially isolated from silkworms in the 1960s. The production process of serrapeptase involves the microbial Serratia E-15 protease, which has been used in the past to treat wounds and other medical purposes.
What are the functions of serrapeptase?
1. Anti-inflammatory
Serrapeptase has anti-inflammatory effects, can inhibit inflammatory reactions, and reduce inflammation-related swelling and pain. It can play an anti-swelling role by inhibiting fibrinolytic activity and inhibiting the increase of vascular permeability.
2. Detumescence
Serrapeptase enteric-coated tablets can also be used to reduce swelling caused by trauma, surgery, chronic sinusitis patients and women's milk stasis. This means that it is not only suitable for adults, but also for children after surgery or trauma to help them recover faster.
3. Promote the discharge of sputum and pus
Serrapeptase can quickly decompose denatured proteins, bradykininogen and cellulose clots, liquefy and thin pus, sputum, blood clots, etc., make it easier to drain and discharge, accelerate wound purification, and promote the regeneration of granulation tissue.
4. Improve antibiotics
Serrapeptase can also help antibiotics transfer to lesions and enhance the antibacterial effect of antibiotics. This can improve the efficacy of antibiotics for patients with infectious diseases.
5. Promote fracture healing
Serrapeptase also has the effect of promoting fracture healing and is suitable for diseases such as gout, rheumatoid arthritis, osteoporosis, ankylosing spondylitis, etc.
Where can serrapeptase be used?
1. Food field
Serrapeptase is a non-toxic protein with no side effects. It can be used for the hydrolysis of animal and plant proteins. This enzyme has a high degree of hydrolysis and can produce HAP and HVP, which are high-grade condiments and food nutritional enhancers. Through hydrolysis, serrapeptase can decompose proteins into products such as peptides and amino acids, thereby improving the nutritional value and taste of food.
2. Medical field
Serrapeptase can inhibit inflammatory reactions and reduce swelling caused by surgery, trauma, chronic sinusitis, milk stasis, etc. It can also reduce the viscosity of sputum and pus, making sputum and pus dilute and easier to discharge.
3. Health care products field
Serrapeptase can decompose large molecular proteins into peptides and amino acids, which helps to improve the utilization rate of proteins. In health care products, the application of this enzyme can make proteins easier to be absorbed and utilized by the human body, thereby enhancing the nutritional value of health care products.
Serrapeptase can hydrolyze animal and plant proteins and convert them into small molecular peptides or amino acids, which are easily digested and absorbed by the human body. Adding serrapeptase to health supplements can help improve the function of the digestive system and promote the absorption of nutrients.
What should I pay attention to when taking serrapeptase?
1. Diet
During the period of taking serrapeptase tablets, it is recommended to avoid drinking. Alcohol may interfere with the mechanism of action of serrapeptase, resulting in decreased efficacy or increased adverse reactions. At the same time, patients should pay attention to a light diet and avoid spicy and irritating foods.
2. Usage and dosage
The dosage should be adjusted strictly according to the guidance of doctors or experts.
3. Restrictions on use in specific populations
It is not clear whether pregnant or lactating women can use serrapeptase tablets, so it is necessary to use the drug with caution according to the doctor's advice. People with a history of drug allergy, coagulation disorders, severe liver and kidney dysfunction should use it with caution.
4. Drug interactions
When serrapeptase tablets are used in combination with anticoagulants, the anticoagulant effect is sometimes enhanced; when used in combination with antibiotics, chemotherapy drugs, and nonsteroidal anti-inflammatory drugs, it may cause adverse reactions such as skin mucosal eye syndrome and toxic epidermal necrosis, interstitial pneumonia, and eosinophilic pulmonary infiltration syndrome.
