- Promoting healthy bones and joints
- Maintaining healthy cartilage
- Support natural skin renewal and repair
newzealandpurehealth Shark Cartilage extract is rich in nutrients such as mucopolysaccharides (chondroitin sulphate), amino acids and collagen that are known to help maintain bones, joints and skin health.
Each newzealandpurehealth Shark Cartilage capsule contains:
750mg Shark Cartilage powder and encapsulating materials.
This product contains no artificial flavours, colours or preservatives.
Shark Cartilage capsule
Take one (1) or two (2) capsules daily as a dietary food supplement or as professionally advised.
People with known allergies to seafood should avoid use.
Pregnant, breastfeeding, and those on prescription medication should check with their doctor first. This product is not suitable for children.
What Is Wild Shark Cartilage?
Shark Cartilage, is cartilage tissue from a shark. Cartilage, a translucent elastic tissue, comprises mostly of the skeleton of embryonic and very young vertebrates. Through a process of calcification, it is transformed into bones that make up the fully developed skeletal system.
You're probably most familiar with cartilage as the "tough stuff" you don't want in your meat. You most likely refer to it as "gristle." Cartilage is apparent in the human body, as your nose and "Adam's apple."
Cartilage is also found between the segments of the spine and at the ends of long bones, where it acts as a shock absorber and a bearing surface to reduce the friction between moving parts. It is tough and elastic.
There are three types.
Fibro cartilage, the first type, is found between the backbones. It is the strongest of the three types. The second, hyaline cartilage, is gristly elastic tissue that thinly covers the moving ends of bones, connects the ribs to the breastbone and supports the nose, windpipe and part of the voice box. This type of cartilage is likely to harden in elderly people. Yellow cartilage, the third variety, is the most elastic. It is found in the external ear, Eustachian tube and throat.
One of the most interesting things about cartilage, however, is not its form but its importance to the body, that is first apparent in the embryo. In an early fetus, there are no bones; it is cartilage that provides the framework on which the major bones of the body, excluding the skull take form. Eventually, fetal cartilage becomes impregnated with calcium salts so that hard, or "stony," bones become apparent.
The bones of children are relatively flexible because they contain more cartilage which is found at the tops of bones in zones called growth plates. (A theory has been postulated that newborn children are resistant to many diseases because of the large amount of cartilage present in their bodies during the early fetal and developmental stages.) Elderly people have much less soft tissue such as cartilage and a higher proportion of calcium salts, so their bones are more brittle.
A process similar to the one in which fetal cartilage develops into bone takes place throughout life whenever bones are broken. It is believed that when a bone breaks, a substance within the bone signals cells from the circulatory system to clean out the breakage site and summon undifferentiated cells to populate the site and multiply. These undifferentiated cells become chondrocytes, or cartilage cells, which produce an intertwining of cartilaginous fibers that fill the break and joins the bone fragments together. Finally, the cartilage is calcified and becomes a new living bone.
Amazingly, cartilage is a tissue that performs its functions without nerves, blood vessels, or a lymphatic system. Nutrients are, therefore, not transported to cartilage via the blood or lymphatic fluid. It is this particular characteristic that seems to hold particular promise in battling cancer and other diseases that cause the formation of malignant tumors.