Achieve Younger Looking Skin with Marine Collagen

Achieve Younger Looking Skin with Marine Collagen

Collagen is a type of protein known for its great tensile strength. You can find collagen in all parts of the body including the skin. The collagen in the skin accounts for its strength and elasticity. The quality of skin plays a role in our skin's appearance. With aging, the amount of collagen decreases resulting in visible wrinkles. In today's modern science, you can bring back the youthfulness of your skin through marine collagen. Here are some important notes about the new cosmetic secret.


Marine collagen comes from the codfish, a deep-sea fish. Manufacturers extract the collagen from the scales and fins of the fish. Because they only use the unwanted parts of the fish, the product is environmentally friendly. Contrary to animals, marine collagen has less environmental contaminants thereby making it more superior.


Collagen is a high molecular weight protein. On its own, it cannot penetrate the pores of the skin. In order to make it effective, scientists discovered the functions of polypeptides. With the help of polypeptide technology, it helps the skin synthesize new fibers in the skin.


Marine collagen maintains skin elasticity and strength by stimulating the synthesis of new collagen. With enough fibers in the skin, you minimize the appearance of deep wrinkles and fine lines. The product encourages the renewal of cells and minimizes facial muscle contraction, the cause of wrinkles. With the new technologies, you can enjoy the invigorating effects of collagen without experiencing painful injections.

As you reach the age of 40, natural collagen synthesis slows down. The less collagen in the skin is responsible for the appearance of fine line and later on, the more visible wrinkles. To help your skin rejuvenate, marine collagen from aquatic sources is the best-known collagen source. When you apply products containing collagen, you feel the revitalizing effect and glow in your skin.


Type I and type III are most abundant in our bodies and to a large extent are responsible for the mechanical properties of our skin with type I found in bones, tendons, skin and other tissues. Type III is most common in faster growing tissue especially when our skin is attempting to repair a wound. Children in particular possess large amounts of type III, which is why their skin is always so soft. As we age, it is this type III that diminishes and after about age 35 our production of type I also declines and by the time we reach 60 years of age, all three types are found to be well below those of youth.

Older Post Newer Post