Cannabis Compound Hardens Bone For Osteoporosis Patients

Cannabis OsteoporosisA published research paper shows how plant based compounds can help to contain the brittle bone disease, osteoporosis. Scientists at the Institute of Medical Sciences, University of Aberdeen, UK have discovered how a non-psychoactive compound in cannabis, cannabidiol helps to maintain bone strength.

The endocannabinoid system is a group of cell receptors that are activated by a group of endogenous lipids as well as compounds derived from the cannabis plant. The cannabinoid receptors are involved in a variety of physiological processes including appetite control, pain, memory and mood. Recent research has shown that the endocannabinoid system also has a strong influence on bone metabolism, as the receptors are well represented on osteoclasts – cells whose principal function is to resorb (thin out) bone.

Bone is an active, living tissue that is being continuously formed, remodeled and shaped in response to both physical and physiological needs of the body. Bone matrix consists primarily of the macronutrients calcium, magnesium and phosphate and is the material that makes up both the dense parts of the bone and the bone marrow framework. Many people still believe that if one eats foods rich in these minerals then they will avoid developing osteoporosis. Epidemiological and other evidence suggests that this is not necessarily the case.

When it comes to bone health and disease the integrated processes that control the formation and resorption bone are just as important as the availability of calcium, magnesium and phosphate.

The formation and resorbtion of bone matrix is controlled by two main cell types:

1) Osteoblasts are bone cells that are responsible for the formation of bone matrix
2) Osteoclasts are modified white blood cells responsible for the resorption of bone tissue.

These two cell types are controlled by a complex set of signaling hormones, proteins and cell receptors that respond to the ever-changing demands on bone tissue and other physiological processes. If there are too many osteoclasts, or if these cells become overactive, they will resorb more matrix than the osteoblasts can produce. A predominance of osteoclast activity results in the bone becoming less dense – the principal characteristic of the clinical condition known as osteoporosis.

The Aberdeen researchers have discovered that cannabidiol binds to a specific cannabinoid receptor on the bone-resorbing osteoblast cells. By so doing it inhibits these cells from resorbing the bone matrix – thereby helping to prevent further weakening of the bones.

This is not the first time that plant compounds have been shown to influence bone metabolism in favour of stronger bones. In January 2009 researchers at Oklahoma State University in the USA found that, even in the presence of oxidative stress and systemic inflammation, polyphenols derived from plums inhibit the action of the bone-softening osteoclasts but enhance the generation and activity of bone-building osteoblasts.

For those who hope that smoking pot will help to strengthen their bones, they do so in vain. Although wild cannabis contains up to 40% cannabidiol, cultivated varieties contain very little of this compound. The important point arising from this research, in my opinion, is that it shows how vital plant compounds are in the prevention of chronic degenerative diseases such as osteoporosis. There are bound to be many other phytonutrients in other food plants that have a positive influence on bone metabolism – they just have not been “discovered” yet.

While we wait for that research to be carried out, it is important to eat (not smoke) a wide range of vegetables, fruit and spices to ensure an adequate intake of a host of beneficial phytonutrients.

Keith Scott is a medical doctor who has a particular interest in nutrition. He is the author of several books including Natural Home Pharmacy and more recently, Medicinal Seasonings, The Healing Power of Spices.

Article Source: http://EzineArticles.com/2897367

You may also like...