Cholesterol

Cholesterol plays both a vital and a detrimental role in your health. It is essential for good health, but it does not actually need to be obtained from your diet, as your body can manufacture the cholesterol it needs from simpler substances which it derives from the breakdown of fats, sugars and proteins. It is interesting to note that your body needs cholesterol. It is a vital and essential part of your diet. If you restrict and try to lower your incoming cholesterol, you will simply find that your body metabolises and creates its own cholesterol itself. Your aim is to learn the difference between high density lipoproteins (HDL) cholesterol and low density lipoporteins (LDL) cholesterol, to understanding the good and the bad sides of cholesterol and how it affects your body.

Vital Functions Of Cholesterol
-compensates for the changes in membrane fluidity keeping it within the narrow limits required for optimal membrane function.
-the body makes steroid hormones from cholesterol (testosterone for example)
-the body makes adrenal corticosteroid hormones from cholesterol, eg. aldosterone which regulates water balance through the kidneys
-allows the body to make vitamin D
-bile acids are derived from cholesterol
-it is also secreted by glands in our skin to protect against dehydration and infection

Body Content
The average person's body has about 150g of cholesterol, most of which is found in the membranes and about 7g in the blood.

Removal
Cholesterol is unique in that our body can manufacture it, but once made it cannot break it down, therefore it must be removed from the body through excretion. This removal is increased by high levels of dietary fibre.

Artherosclerosis
These are deposits of proteins, fats, cholesterol and minerals in the arteries. They narrow the arteries and slow down blood flow. Excess cholesterol also makes platelets sticky which can lead to blood clots.

Cholesterol deposits also "harden" the arteries leading to high blood pressure because the arteries resilience which normally takes up the pressure generated by each heartbeat is lost.


HDL AND LDL - The Differences
Cholesterol is unique in that our bodies can make it but once made, cannot break it down. By contrast sugars, fats, amino acids, and nucleic acids can all be taken apart and turned into carbon dioxide, water and ammonia. As a result of this peculiarity, cholesterol must (and can only) be removed from our bodies through our stool (in the form of bile acids and cholesterol molecules).

The removal of cholesterol is increased by fibre. If fibre is absent, upto 94% of the cholesterol and bile acids are reabsorbed and recycled. This is why low fibre diets can increase blood cholesterol levels.

The average person contains about one third of a pound of cholesterol (thats 150 grams or 5 ounces.) Most of this is found in the membranes, and about 7 grams is carried in our blood. The daily turnover of cholesterol is about 1 gram. This cholesterol is carried around in our bodies by a vehicle carrier called plasma lipoproteins.

The two different groups of lipoproteins play different roles. One fraction, made up of four sub fractions, the most prominent of which is called low density lipoprotein (LDL - sometimes called bad cholesterol) carries cholesterol and triglycerides (fats) from foods and our liver to our cells. the other fraction is called high density lipoprotein (HDL - sometimes called good cholesterol) carries cholesterol from cells back to our liver, where that organ changes cholesterol to bile, excretes both into our intestines, and eventually discards them with our stool. Total blood cholesterol is all cholesterol in transit, being carried by different lipoprotein vehicles, to and from our cells.

Cholesterol And Heart Disease
​The stickiness of saturated fats and cholesterol is only one factor in cardiovascular disease. The complete story is a little more complex. There is injury to the lining of the artery, due to toxic free radical damage, oxidized LDL cholesterol, oxidized triglyceride fatty acids, etc. This is followed by attempts at repair that involve thickening the arteries by repair proteins apo(a) and fibrinogen, along with fats and cholesterol. The combination of thickened (narrowed) arteries and sticky platelets sets the stage for heart attacks, strokes and emboli.