LOS ANGELES, June 27, 2013 /PRNewswire/ — Dr. Rongxiang Xu and MEBO INTERNATIONAL, the company established for his proprietary technologies, announced today his accomplished proprietary technologies to regenerate damaged organs in order to help the government and non-government power quickly benefit mankind with his new scientific system. Dr. Xu is the patent owner of technologies regarding “developing drugs to regenerate damaged organs”, a priority strategy of life science development noted in Obama’s 2013 Presidential State of the Union address, and he is also the inventor and founder of the new scientific system “human organ in situ regeneration science”.
On Feb. 13, 2013, the US President included “developing drugs to regenerate damaged organs”, part of the scientific system of Dr. Xu, as a top priority strategy of life science development in his State of the Union.
“The U.S. government stepped into the stage of our applied science path to regenerate damaged human organ in situ with substance, getting away from the era of basic exploratory study on stem cell, gene, and tissue engineering, and becoming the model of all countries as well as indicating that the American people will first get rid of the suffering of organ diseases not cured by modern medicine,” explained Dr. Xu.
The “human organ in situ regeneration science” invented by Dr. Xu is a new life science system which makes the use of dietary combination of regenerative nutrients to regenerate in situ new cells to replenish and replace the damaged, prematurely senescent, prematurely apoptotic or cancerous cells in the human organ, to help the diseased organs regenerate and restore the normal structure and function or rejuvenate to a younger state.
“The substance used by human organ in situ regeneration science is a food formula of regenerative nutritional composition, rather than a chemical drug,” explained Dr. Xu. “It has no safety problem and can be directly validated, promoted and applied. Everyone can realize in situ regeneration of internal organs as long as the regenerative nutritional food is added into the diet.”
Dr. Xu has accomplished the task of regenerating damaged organs. “We are announcing in the US our proprietary organ regeneration science and technology, hoping the US government and President quickly validate and apply the “human organ regeneration science and technology” we’ve invented for curing human organ diseases to benefit the people,” said Dr. Xu.
Hippocrates founded modern medicine 2500 years ago, making historically great contributions to the health of mankind. However, curing human organ diseases has always been a huge challenge and target for life scientists and medical scientists throughout history.
For the last half century, taxpayers have paid hundreds of billions funding on research exploring the cure of human organ diseases, with no return in application yet. Moreover, there is not any timeline for curing human organ diseases after the “father of human gene” Prof. James Watson stated on Mar. 21, 2013 that applied gene research is useless.
“Using the dietary combination of regenerative nutrients, we have already accomplished in situ regeneration of damaged human organs as well as the in situ rejuvenation of premature aging of human organs. In our mind, we, as scientists, have already fulfilled our mission in science, and it is now the responsibility of the state leaders, governments and influencers to use the new scientific system to save the people. The governments don’t need to invest any more funding in the R&D of organ regeneration science; they can just use our applied technology of human organ in situ regeneration science to benefit the people,” states Dr. Xu.
Examples of Dr. Xu’s accomplished organ regeneration projects are listed below:
One: The technology of in situ regeneration of severed distal finger
It has been impossible in medical history to regenerate a severed finger, which is the recognized mark of accomplishing human organ regeneration, as well as the scientific mark of going beyond all the current fields of research on human organ regeneration. We have already accomplished the regeneration of the lost part of a severed finger by cultivating the residue vital tissues (including bone tissue) of the fracture surface of the wound with the ointment of nutritional combination for severed finger. In the case of the severed finger that cannot regenerate completely, the defective part of the finger can still regenerate to its normal state by making a new fracture surface surgically.
Core mechanism: All types of tissue cells of the fracture surface of a severed finger convert in situ into stem cells which regenerate synchronically all types of damaged tissues to form the original finger according to the in situ human stem cell development procedures.
Two: The technology of regenerative rejuvenation of aging GI tract.
Everyone is aware of the premature aging of GI organs but has been unable to do anything about it. The aging of GI tract is positively proportional to the age of a person, 20 years ahead of other organs in the human body. In the view of overall life of the human body, premature GI aging is the most serious disease because it directly results in lack of nutrition and energy supply to each organ. The vitality and lifespan of each organ is damaged directly due to the premature aging of GI organs which is the origin of various organ diseases. It is saving the mankind if the prematurely aging human GI organs can realize regenerative rejuvenation. We have already accomplished the regenerative rejuvenation of prematurely senescent GI organs using dietary capsule of GI organ regenerative nutrients, enabling the aging GI organ of the 60-year-old to rejuvenate to the status of the youth.
Core mechanism: The GI organ regenerative nutrients enable the tissue cells of prematurely aging GI organs and tissues to regain the stem cell development function and generate in situ new cells to replace the senescent and fibrotic cells and replenish the organ against the premature apoptosis of plenty of cells, regenerating and restoring all the prematurely aging GI organs to younger structure and function status. Attached image is the one-year regenerative rejuvenation result for a 40-year-old person (Fig. 1).
Three: Regenerative therapy for gastro-duodenal ulcers
Gastro-duodenal ulcers are refractory diseases and often relapse. Although current medicine can promote the ulcer wound healing with scarring by using pharmaceuticals, the gastric organs will lose their original structures and functions at the wound site due to the scar formation, and the scar is vulnerable to ulcer relapse and often leads to GI dysfunction. Thus, the ulcer is not radically cured. Cultivated with our dietary capsules of regenerative nutrients for gastrointestinal ulcer regeneration, the ulcer wound can be in situ regenerated and restored to normal gastrointestinal organ tissues, achieving healing without scarring.
Core mechanism: Under the effect of orally administered regenerative nutritional composition for gastrointestinal ulcers, the ulcer tissue is gradually liquefied and discharged automatically to establish on the ulcer wound a physiologically ecological environment under which residual viable living tissue cells of the wound regenerate into stem cells in situ and regenerate defected gastrointestinal organ tissues in situ following the process of stem cell development.
Four: Regenerative therapy for coronary heart disease (CHD)
CHD, among other major cardiac diseases, is the top one killer of human lives. It has been constantly threatening human lives since it is intractable, although cardiovascular stent or bypass surgery could temporarily relieve the symptom and save lives. Our cardiac organ regenerative technology could regeneratively restore CHD to non-surgical indicated or mile condition from cardiovascular stent or bypass surgery indicated conditions, or a condition negative by CHD exams.
Core mechanism: Under the effect of orally administered regenerative nutritional composition for heart, all the fibrotic cells in heart vessels and cardiac muscles are gradually replaced by in situ regenerated new cells, and accordingly the blood-supply function of heart vessels is enhanced and the cardiac muscle has a younger structure and vitality.
Five: Skin organ regenerative restoration technology for facial scars
Anyone with a scar on the face suffers both physically and mentally throughout their life. Skin organ regenerative restoration technology for scars enables thousands of such patients to regain a happy life by regenerating skin organ in situ.
Core mechanism: Under the effect of regenerative nutritional composition for skin, the scar cells go into the process of apoptosis, while residual tissue cells of dermal and epidermal skin cells develop stem cell functions in situ, thus to regenerate new skin organ structure in situ.
Six: Regenerative medicine and therapy for wounds of surface burns, traumatic defects, ulcers and diabetic ulcers
The regenerative restoration technology for wounds of surface burns, traumatic defects, ulcers, diabetic ulcers etc. has been the mainstream technology in world clinical treatment. In 2004, the famous Swedish press KARGER published our monograph Burns Regenerative Medicine and Therapy which elucidates that wound not healing itself, such as body surface traumatic defect, ulcer, diabetic ulcer etc., can be treated with the regenerative therapy for deep burn wounds. Up to now, there have been 73 countries applying the regenerative therapy for burned skin. In the U.S., the regenerative nutritional composition for skin organ is close to finishing phase II FDA clinical trial. It is hoped that the US government can speed up the FDA validation process and help the U.S. patients to quickly benefit from skin regeneration.
Core mechanism: For deep burn wounds, under the function of skin regenerative substance, necrotic tissues can be liquefied and removed without further damage; the tissues in burn stasis zone can be restored; and an ecological enclosed environment can be established where the residual viable tissue cells transform in situ into regenerative stem cells. Following the development procedures of stem cells, the regenerative stem cells regenerate in situ skin tissues and organs. The mechanism applies to other types of wounds.
Seven: Regenerative rejuvenation technology for senescent facial and neck skin
Although the middle aged have the same high vigor and spirit as the youth thanks to the improvement of life standard of human beings, their facial and neck skins inevitably experience premature aging. It would be fine if the middle-aged and senior people don’t look into a mirror; otherwise, they would lose their confidence seeing their senescent appearance, impairing their life quality seriously. Our regenerative rejuvenation technology for senescent facial and neck skin can rejuvenate the senescent skin back to their young state.
Core mechanism: Under the function of the regenerative rejuvenation nutrients for senescent skin, the epidermal regenerative capacity of epidermal basal cells is firstly restored and then the scattered fibers are restored to be bundle-like, awakening in situ the regenerative function of tissue cells and further regenerating in situ new dermal cells taking the place of senescent dermal cells, thus the young structure and function of dermis are rejuvenated. Attached figure is the accomplished human application result for the regenerative rejuvenation technology inventor Rongxiang Xu himself (Fig. 2).
Eight: Regenerative anti-cancer technology
The anti-cancer studies making use of regenerative nutritional substance have achieved success in cellular level while in clinic, except skin cancer, the other cancers still demand further studies. However, we have obtained the application experience of extending the life span of terminal cancer patients without removing cancers. Therefore, the anti-cancer technology using regenerative nutrition can be first applied to benefit patients with skin cancer or terminal cancer.
Core mechanism: The regenerative anti-cancer nutrient composition can promote the apoptosis of cancer cells and simultaneously can promote the metabolism and initiate the regenerative capacity of normal cells.