Overview of Gastrointestinal Regenerative Medicine

To prevent diseases, repair the damaged tissue organ and carry gastrointestinal component (GIC) into effect, we established a matching regenerative medicine technique according to the physiological characteristics of gastrointestine. 

The main point of the technique is to protect mucosa, repair mucosa in time and prevent the gastrointestinal mucosa from being destroyed by alcohol, irritant and carcinogen,etc.

Bionic protecting technique:

The oil media mixes with the mucus in the stomach. Then the media forms the bionic mucus protection layer. The protection layer can prevent mucosa from being destroyed by alcohol, irritative food and carcinogens. (Most of alcohol, irritative food and carcinogen are water-soluble. They cannot penetrate the protection layer.) The layer can also protect the exposed nerve fibers in the wound. GIC is effective only when it is continually protected by the bionic mucus protection layer, which also establishes a benign regenerative environment for cell repair. (Patent No. CN95116651,4 USA 5817322)

The technique of stem cells in situ regenerating and repairing mucosa:

Gastrointestinal mucosa trauma is the main reason for gastrointestinal disease. Usually, mucosa will initiate the self-repair function to repair wounds. However, mucosa cannot repair deep wounds and erosion in stomach without a regenerative environment. The repair process will cease. Mucosa trauma can transform into organic disease.

In the regenerative environment formed by the bionic mucus protection layer, gastrointestinal component (GIC) can activate stem cells in the gastrointestinal mucosa, initiate self-repair process and form the new tissue organ to repair the trauma in situ.

The technique of clearing remnant food by microcrystal of wax:

The microcrystal of wax, formed in the intestine, can enlarge villus clearance to improve the absorption. Most of the remnant food is protein, partly digested and long-chain fatty acid. The remnant food not only decreases nutritional absorption, but also reduced the absorption area of the intestinal villus. The vitamins and peptides of the remnant food can be absorbed directly by mixing with lipid drop. 

The esterification happens between unsaturated fatty acid and special lipid component. The long chain fatty acid transforms into the short and middle chain fatty acid by breaking the double bond. It is absorbed by the villus cells. 

Long chain fatty acid, which can lead to lipopexia, cannot be absorbed. The reduced remnant food will be moved and excreted. 

This technique can improve the nutritional absorption and lighten the gastrointestinal digestive burden.