Can MSM Help Improve Joint Health?
|Can MSM Help Improve Joint Health?||Darrell Miller||11/09/13|
November 09, 2013 05:58 PM
Author: Darrell Miller (email@example.com)
Subject: Can MSM Help Improve Joint Health?
What is MSM
The initials MSM stands for methyl- sulfonyl – methane commonly known as sulfur. MSM is white sulfur powder which is organic. MSM comes from the ocean and is soluble in water. It is a food commonly found in meats, vegetation, plants and dairy products. In the human body, it is the third largest nutrient. Sulfur is very important in human body; it plays a very critical role in the production of collagen which acts as a building block of skin, joints, nails, hair and other connective tissues.
What are the Benefits of MSM
Physical strain and Osteoarthritis (OA) may lead to swelling and joint pain. The pain caused by OA can be relieved using MSM. From the research done; MSM is believed to have anti-inflammatory effects.
Many people especially the old suffer from joint disease. The OA affected joints suffer from uneven loading, which results to altered lines of weight bearing. Cartilage starts to form to compensate for the uneven load, this leads to formation of deformities and roughening in the surface of the joint. The operation of the joint inflame is affected because the socket and the ball rub unevenly due to the friction of outgrowths of bone and cartilage, called osteophytes.Up to date no cure for OA has been found therefore, the treatment available only eases the symptoms.
How Sulfhur Helps our Body
Sulfur is delivered into our bodies by MSM in a usable way. Sulphur helps in maintaining the connective tissue structure by forming cross linkages. This therefore means that sulphur strengthens the joint tissues.Sulphur is very important for the good health of the joints.Glycosaminoglycans (GAGs) are the crucial building blocks of joint cartilage. GAG molecules are held together by the disulfide bonds. As the name suggests, the disulfide bonds are bonds between 2 atoms of sulphur. Disulfide bridges reduce the conformational flexibility of the GAG chains, hence making the cartilage resilient and firm. Thus the integrity of the cartilage depends on sulphur.