Our health relies on trillions of cells repeatedly performing billions of specialized functions. Though the processes and systems that animate our bodies are phenomenally complex, hoodpay what the cells driving them need is simple-simple to understand and simple to provide. You are about to discover the three elements of optimal health-the collagen matrix, acid/alkaline balance and hormonal balance.
Element I: The collagen matrix
The entire body is held together by connective tissue. Collagen is the strong, fibrous protein that serves as the building block for connective tissues-including skin, tendons, ligaments, eyes and arteries. Collagen is like the glue that holds the body together. Collagen production is dependent upon ample supplies of ascorbates.
While most animals produce their own ascorbates from the food they eat, humans, guinea pigs, fruit bats and primates do not. Scientists believe that about 10,000 years ago humans could produce their own ascorbates.
Unless sufficient quantities of usable ascorbates are ingested daily, the collagen matrix becomes stiff and brittle: Skin wrinkles, backs ache, ligaments pull redribbonlive and the little sacs in the lungs get stiff-causing blood vessels and arteries to crack.
Also critical to the production of collagen are the amino acids lysine and proline. When our bodies do not have enough vitamin C, they cannot use the amino acids lysine and proline to make the proper cross links in the collagen. Like ascorbates, humans must obtain lysine from dietary sources. Our dietary intake is usually deficient in lysine. Proline can be produced by the body but usually in inadequate quantities. Lysine and proline are essential for proper collagen formation and to prevent cholesterol build-up in the form of plaque.
Symptoms caused by ascorbate ristomanager deficiencies (and the body’s subsequent inabilityto utilize lysine and proline) are traditionally referred to as “scurvy.” The body can, for a time, manufacture enough lipoproteins from blood plasma to “patch” the vesicular/arterial cracks. The patch material is commonly called “plaque.” As the plaque gets thicker, vessels and arteries can no longer flex and blood flow is restricted.
As a result, the resting heart rate increases. This condition is commonly diagnosed as “high blood pressure.” Over time, vessels and arteries can become so cracked and plaqued that people lose blood internally, eventually resulting in a heart attack.
High blood pressure, also known as hypoascorbemia, is advance warning that the host is preparing to become another heart disease statistic.
A diet rich in ascorbates can prevent scurvy and, to some extent, therapeutic doses of ascorbic acid (vitamin C) can reverse the deficiency and other chronic conditions created by a lack of vitamin C. But ascorbic acid is only one form of ascorbate and can cause digestive discomfort when therapeutic MATRIX CRACK doses are administered.
Buffered mineral ascorbates (sodium ascorbate, calcium ascorbate and potassium ascorbate) can be taken daily in larger quantities without discomfort. The only substances capable of healing damaged vessels and arteries are ascorbates.
It should also be noted that the presence of buffered mineral ascorbates prevents and/or reverses the symptoms of high blood sugar, commonly referred to as “diabetes.”
There are no surgical procedures to be performed nor drugs taken that will remove the plaque and heal cracked vessels and arteries.
Element II: Acid/alkaline balance
The second element is the acid/alkaline balance in the body. It is monitored by measuring the “pH (the symbol for hydrogen ion concentration)” which is regulated by the body’s oxygen saturation level. The body must be slightly alkaline for its cells to be properly oxygenated.
The pH scale goes from zero to 14-zero being purely acid, 14 being purely alkaline and 7 being “neutral pH.”
Without exception, people with cancer have a pH below 7.0, which means their tissues, their cells, are not being properly oxygenated. This condition is called “acidosis.”
People with a body pH over 7.4 do not have cancer because their cells and tissues are being properly oxygenated.
Contrary to current medical information, cancer is the easiest of all degenerative diseases to understand and is readily reversible without dangerous drugs and surgeries.
The body is constantly regulating the replacement of worn out cells while creating new cells to repair tissue damage.
“Cancerous” is the term applied to cells that reproduce in an unregulated manner until they form a tissue mass, or “tumor.”
In order to create a cancerous cell in the lab, technicians simply withhold oxygen from a healthy cell and it becomes cancerous within a few hours. Conversely, supplying the cancerous cell with more oxygen than was withheld from it causes that cancerous cell to die within a few hours.
An individual cell cannot be cured of cancer; once cancerous, the cell must be destroyed.
The natural way to accomplish the feat of destroying cancer cells is exposing them to oxygen. Increasing the amount of oxygen available to the cells is accomplished by elevating body pH through diet and exercise.
In cases where elevating body pH is critical, the most alkalinizing element known to man is cesium. Daily intake of cesium, with potassium, will quickly increase body pH. It has been demonstrated that cancerous cells cannot survive in a pH of 8.0.
Once cancerous cells have been destroyed, maintaining body pH at 7.4-7.5 will prevent cells from becoming cancerous.
There are no surgeries that can be performed nor drugs taken that will restore or maintain the body’s acid/alkaline balance
Element III: Hormonal balance
The third element is the balance between the hormone insulin and growth hormone. People with the highest levels of the growth hormone somatotrophin (STH) live the longest.
Insulin, produced in the pancreas, is secreted to regulate the rate at which the body utilizes carbohydrates. When we consume carbohydrates (sugars and starches), insulin is released to lower the level of sugar (glucose) in the blood. Insulin also promotes the use of glucose as an energy source for the body, promotes the storage of fat and encourages the conversion of proteins to fat for storage.
Produced in the pituitary gland, STH increases the rate of protein synthesis, affects the metabolism of sodium, potassium and calcium and influences the metabolism of carbohydrates. The purpose of STH is to convert the body’s available energy into bone, muscle and tissue growth.