If you are out in the medicine market searching for a valid supplement to help an issue, or boost the effects of the medicines you are already using, chances are high that you have heard of Serrapeptase. After all, it is one of those solutions that regularly gets recommended as a “side dish” to more intense medication.
But what is it? How does it work? What exactly does it do in your body that benefits your health condition? We did some digging so that you do not have to. Read on to learn everything about the basic lore of Serrapeptase.
What is it and where does it come from?
Serrapeptase is known under many different names, which include nicolase, serrapepptidase, serratia peptidase, and serratiopeptidase. It is a proteolytic enzyme which is produced by a type of non-pathogenic bacteria, known as Serratia sp. E-15. These bacteria are commonly found in the intestines of silkworms, and serve to dissolve the walls of their silky cocoons when the time comes for them to break out as adult moths. To learn more about the life cycle of a silkworm, check out this informative article.
Although it gained recognition in the United States only after 1997, when it entered the market as a dietary supplement, this substance has in fact been employed in Europe and Asia as an anti-inflammatory agent for more than a quarter of a century.Nowadays, it is commercially produced in laboratories, using microbial fermentation, and the silkworm is no longer used in the production process.
How does it actually work?
We mentioned above that Serrapeptase is a proteolytic enzyme. This effectively means that it accelerates the breakdown of proteins in the body, which enables it to ease the symptoms of inflammation and reduce the feeling of pain. There are three mechanisms by which it achieves this:
- Preventing or lessening the release of Bradykinin. Bradykinin is a protein which is released into damaged tissue and serves to trigger a pain response, thereby alerting us when we are injured. However, Bradykinin dilates our blood vessels, which only makes our pain stronger. Moreover, it creates a feeling of additional soreness, because it increases the sensitivity of the nerves in damaged or inflamed tissues, causing them to overreact to touch and heat. Blocking Bradykinin’s path reduces pain, and Serrapeptase inhibits its release.
- Breaking down the fibrin in our blood. Fibrin is an important blood protein which is involved in the process of blood coagulation, otherwise known as “clotting”. Clotting is an essential defensive mechanism which prevents us from bleeding to death through every accidental cut – it forms scabs and scar tissue to seal our wounds and help our healing.However, if too much fibrin accumulates in the body, which tends to happen over time, we are at an increased risk of clots in dangerous places and developing arterial plaque.
To learn more about how clotting works, visit this link: https://www.ptglab.com/news/blog/how-does-blood-coagulate/
Problems caused by fibrin, collectivelyreferred to as “fibrosis”, lead to a host of dangerous conditions such as stroke, heart attacks, endometriosis, deep vein thrombosis, fibrocystic breast disease, and even Alzheimer’s. Serrapeptase dissolves fibrin, thereby preventing its overproduction and helping to remove the excess of it form the body.
- Thinning the fluids that build up during inflammation.After an injury or a surgical procedure, many people have some kind of inflammatory-type reaction. These include swelling, tissue damage, varying degrees of pain, or muscle spasms, and are caused by the release of substances like cyclooxygenase and prostaglandins. The most common way of addressing these issues is using corticosteroids,or non-steroidal anti-inflammatory drugs, to inhibit the release of those substances and reduce the amount of harmful fluids that accumulate in the inflamed areas. However, they have the significant downside of prolonging the wound healing period.
Serrapeptase is a safer alternative, since it has no adverse side effects on the healing mechanisms and does not cause any harm to the surrounding healthy tissues. When taken orally, it enters the system through the bloodstream and thins the accumulation of inflammatory fluids by degrading cellular debris. This improves the drainage of the inflamed areas and accelerates healing.