(Part 2) Demonstration lecture on the application of Human Body Regenerative Restoration Science

Slide 41

Ok, next we talk about the rejuvenation of internal organs. The internal organs are not easy to see. The organ that is the most convenient to see is gastrointestinal track. The heart and liver cannot be seen with a conventional method, but we can find methods to solve this problem. The left picture is an aged gastrointestinal mucosa (villi). In plain words, mucosa refers to villi. The left picture is of aged gastrointestinal villi, while the right picture shows the regenerated mucosa. This side (left) is lifeless while the other side (right) is vigorous.

 

Slide 42

We have seen the comparison of internal organs before and after rejuvenation. Later in this lecture, I will give you a special session to show you more detailed results about this.

 

Slide 43

We know that some internal and indirect organs are difficult to see. But some modern technologies such as a special imaging technique, isotope of eco-technology, and ATP energy distribution can be used to monitor the rejuvenation of the body organs. For example, to look at whether the blood vessels are blocked or not, or to see whether they are open or not. These will be addressed later on one by one. Well, let’s see how the regenerative restoration of gastrointestinal track is achieved.

 

Slide 44

When our ungoing human regenerative restoration and rejuvenation study, which is currently in its first 5-year period, reaches the tenth year, we will announce more exciting results. First of all, we summarize the regular pattern. The procedure is from sub-health to health. In our study, patients in a sub-health state improved to be in a healthy state after half a month. Through the regenerative restoration, in half a month, the energy, spirit, vigor and strength are initiated and patients continue to be vigorous. At that time, you will be able to notice a difference in the mirror of the patients’ eyes. Some changes will take place in the eyes: the eyes become more bright, fine and intense. Changes in energy, spirit, vigor and strength are also evident. Following two years of treatment, the whole body would be regenerated and restored, during which you will not get sick. The body will be in a good healthy state. From the third year, you will enter into the rejuvenation period. So you see, we only spend two years to achieve rejuvenation

 

According to our research data in this batch, rejuvenation can be achieved in two years, and this process is still continuing, and will last for a long time. But as for how long, I have no idea (joking). But based on the results from mice, we can speculate that this process can last for 50 years with no aging occurring to the body. Another group consisting of patients with systemic and intractable diseases, should also be treated by regenerative restoration science. That is to say, these kinds of patients can also be regeneratively restored. Regeneration includes two parts: One is the regeneration of healthy organs, and the other is that of unhealthy organs. But no matter what the organ is like before regeneration, it can be regenerated. Unhealthy organs can first be changed (regeneratively restored) into a healthy state and then come into the regeneration stage. But now, even though some diseases have been regeneratively treated such as high blood pressure, uterine fibroids and lung fibrosis, which can be restored in about three years, but we still cannot still give a definite time to achieve rejuvenation (for this group). The law hasn’t be formed yet. However, the rejuvenation law and procedure for healthy and sub-healthy people has been established.

 

Slide 45

No doubt, the value of Human Body Regenerative Restoration Science (HBRRS) will be very great. So you can imagine how tremendous the value of life regenerative science will be! You know it will bring a priceless new life and a new world to human beings. However, there is a price for the regenerative substance. Even though the product is expensive now, later on, it will only cost as much as a breakfast does. With little money, you can achieve rejuvenation.

 

Just now we spent half an hour on talking about the general knowledge of HBRRS (Human Body Regenerative Restoration Science). Now, the theme of this lecture is gastrointestinal regenerative restoration which may be the most concerning topic for human beings.

Slide 46

The reason why I put gastrointestine in the first place of my lecture is that it plays a very important role in our human body. Let’s do an analysis. There are two extremely important organs in our human body. One is lung while the other is gastrointestine. The gastrointestine in everyone’s body is aging with time. The aging of gastrointestinal organ is chronic suicide of a human life. We examined the gastrointestine of young people of around 25 years of age. Two-thirds of their gastrointestine are aged and only one third of their gastrointestines are in a young state. You see, how terrible!

 

Slide 47

As we all know, natural substances as oxygen and food– absorbed through lung and food and digested by the digestive tract respectively can provide energy for our body can then be used to maintain our lives. So, the first lecture focuses on the special topic of the gastrointestine

 

Slide 48

 I know you are more concerned about the damages due to gastrointestinal aging. But first, we must understand the internal structure of the gastrointestine. Now let’s discuss the structure of gastric wall. There is the mucosa layer, submucosa layer, muscularis layer and serosa layer from the inside to the outside of the gastric wall. This is the gastric mucosa, and it looks like packed stones. This is an electron microscope picture. There is a little mucus on the surface of the gastric mucosa (in the picture). After drinking alcohol, the stomach will secrete mucus which causes gastric injury. Eating chili and drinking cold water cause same damage as drinking alcohol does. The human body has the potential to repair itself very quickly by regenerating new gastric epithelial cells. However, when the gastrointestine is aged, this function will be reduced or nonexistent. What does the intestinal mucosa look like? From the inside to the outside of intestinal wall, they is the mucosa, the submucosa, the muscularis and the serosa. How about intestinal glands? They are composed of absorptive cells, goblet cells, Paneth cells, and endocrine cells, with the function of secreting small intestinal fluid and mucus, etc. Intestinal villi look like sheep wool protruding from intestinal mucosal surface towards intestinal cavity.

 

Slide 49

Well, we have known the structure of GI, what damages can be caused by GI aging?

The first is premature aging. During the examination for young people, we have found premature aging of gastrointestinal mucosa in almost half of the subjects of 25 years old, which is associated with improper diet, work stress or slimming, GI aging begins 20 years earlier than the aging of other organs. So everyone can be a victim. GI aging can result in the systemic aging of our body. For example, a white-collar worker at the age of 30 seems to be in his prime, but his GI may have already been worse than that of an old woman. His GI is already like that of older. He cannot show young man’s vitality due to the lack of ‘vigor, energy, spirit and strength’ resulted from the premature gastrointestinal aging.. Later, I will give you a case where I am sure you will be astonished. GI aging can also lead to other systemic diseases. Secondly, premature gastrointestinal aging leads to under-nutrition of various organs and induces refractory organ diseases. The next damage is metabolic disorders. Many of you here in the room may have been suffering from metabolic disorders. This judgment is reasonable because our diet is not scientific. Our GIs are not young. So, our metabolism may be disturbed and this bad cycle would continue. The diseases such as hyperlipidemia, high cholesterol, hyperglycemia, fatty liver and etc. can also be caused by GI dysfunction because GI cannot digest and discharge the inappropriate things you eat through the normal metabolic process. When you are young, the GI can absorb food ingredients selectively. But when you are old, this function of your GI would disappear. That is to say, your GI can not handle the absorption effectively, so, a lot of things is accumulated in your body. Therefore, hyperlipidemia, high blood sugar, and high blood pressure will occur. Here, I tell you, they (the indexes) won’t be high anymore; after all, they are not difficult to treat. Another is the endocrine disorders.

The GI is the largest endocrine organ of human body. Do not mistake any secretion glands as the largest endocrine organ. Neither of them is the largest secretion gland, and GI is the real one. GI malaise affects all body organs, even your brain. For instance, if your stomach is aching, even if you want to cheer up, it is impossible. The reason is that the aching disturbs your hormone production and further influences your normal regulation of hormones. Nearly half of the people with hypertension are suffering enterogenous hypertension. The high blood pressure in many mid-aged people is not true cardiovascular hypertension but is caused by the cell aging of GI mucosa which results in the reduction of inhibins both in the GI and the brain. We have made progress in research on this and found that after the regenerative restoration of GI mucosa, the blood pressure can drop.

Many of our club members, guests and volunteers are patients with enterogenous hypertension. After treatment, their blood pressures returned to the normal level, and they even have no need to take anti-hypertensive agents. Diabetes, type 2diabetes is not directly caused by insulin, but by the endocrine system.

For example, in 2001, I was diagnosed with diabetes with hyperglycemia by the 305 and the 301 Hospitals. The fasting blood-glucose level was 17 while the postprandial blood-glucose was 24. I was shocked at that. Director Li urged me to seek treatment for my disease since it was quite serious. But now it is not. My diabetes was caused by endocrine disorders, not by pancreas. My pancreas is not damaged. Therefore, friends, when you suffer diabetes, do not take insulin blindly. Find ways to adjust and regulate your body. After all, insulin has the side-effect of addiction. Intractable insomnia is definitely caused by gastrointestinal disorders. Why? The GI has a dependent nerve system to control its activities, which is contrary to the nerve control in brain. When nerves in brain are in a rest state, the GI will begin to work, and vise versa. But when GI disorders occur, it would be in an active state when nerves in brain are also in an active state. So things are messed up. When the gastrointestine is empty, we feel uncomfortable but our nerves can do nothing about it. Because the GI has an independent nervous system. In the future, we will touch on the nervous system again. Later on, we will continue to discuss the diseases of the GI itself. So in a word, the secretion of endocrine hormone will be reduced due to the GI aging, and consequently endocrinopathy will be resulted for mild cases while endocrine disorders may occur in serious cases, like enterogenous hypertension is caused by the reduction of neurotensin; type 2 diabetes is mainly caused by GI aging. And also the most common intractable insomnia is induced from GI aging.

Fifthly, refractory disease of gastrointestinal organ itself. Incomplete closing of cardia results in reflux esophagitis. Incomplete closing of pylorus due to aging results in bile reflux gastritis which induces chronic atrophic gastritis. Aging of gastric wall results in short of power. Aging of duodenum, small intestine and large intestine result in refractory intestinal diseases. Gastrointestinal aging is the key factor of occurrence of refractory diseases. What mentioned above are the hurts to the body resulting from gastrointestinal aging which you need to know.

 

 

Slide 50

What does the aged GI look like? You may have a very general impression of it if you are not amprofessional in this field. Which is thicker, the young GI or the old one? Well, the aged GI wall is thin and gastric glands are less dense and empty, while the restored GI wall is thick and glands are more dense and full. Gastric glands cannot onlydigestive fluid but also endocrine hormones.

 

Slide 51

What does duodenum aging look like? It is similar to that of GI aging. The aged duodenum wall is thin and has little villi, while a restored young intestinal wall is thick and has dense villi. Let’s see the regenerative restoration of the small intestine. You will be surprised by our outcomes. So, you should take care of your small intestine.

 

Slide 52

What does the aging small intestine look like? First, let’s take a look at the aged small intestinal wall. The wall is muscle, so you can see that at peristalsis part, it is so thin, like a tiny crack. Look at the intestinal glands, there are only a few villi circles. Now let’s take a look at what the restored young intestine looks like? The muscle is so thick and there are many vigorous intestinal glands. So just imagine, if the small intestine is regeneratively restored. No matter what kind of food we take in, its function can be vigorous and keep our GI in a healthy state; if not, no matter how much nutritional food we eat, our body would stay in the 1960s (which means our bodies cannot absorb nutrients, which results in malnutrition).

It seems having taken plenty of food, but only a few kind of and small amount of nutrients are absorbed by the body, and all organs in the body starve everyday due to the gastrointestinal aging. It’s true, we must pay attention to it.

 

Slide 53

Now, we look at the large intestine which is the same as the small intestine. Firstly, this is lymph. The large intestine functions as the bacterial treatment plant in human body. If it is damaged, who can take its place to protect our body? That is the lymph. You can see clearly the great differences before and after restoration. The wall is thin and there are less glands and lymph in aged large intestine. In contrast, in the restored one, the wall is much thicker and there are more glands and lymph. All things are younger. This is a real successful case treated by our regenerative restoration science and technology.

 

Slide 54

After seeing the histological features of GI, let’s see something more visual stuff. Now, what we are looking at are the pictures of the natural aged and the restored intestinal villi respectively. The villi of the aged are scarce and short while that of the restored are dense, thick and long. Huge difference! Intestinal mucosa villus has the function of absorption. The villi density in young state is more than 4 million while that in aged state is less than 1.5 million. After regenerative restoration, intestinal villi increase fourfold at least in the amount, density and thickness.

 

 

Slide 55

If this cannot also help you form a concrete concept, let’s do a calculation to see what the total area of the aged intestinal villi? The length of each villus ranges from 0.6 to 1.6mm, so the total area of the aged intestinal villi is ​​less than 50 square meters. That is to say, what we eat is digested in a sieve-like area of 50 square meters. Then what is the total area of the restored villus? It is more than 200 square meters in which what we eat is digested. On a surface area of more than 200 square meters, what we eat is digested.

Small intestinal absorptive area = number of villi x area of each villus x activity index of brush border.  So we can say that once GI problems are resolved, the entire nutrient absorption will be smooth. For example, eating one egg can be 100% absorbed by the restored intestine while only 25% absorbed by the aged intestine. So, the GI is the most important organ whose aging would severely impair the absorption of nutrients in our human body. Which means, at most, only 25g out of 100g nutrients can be absorbed into blood circulation due to intestinal aging. People will certainly take the aging of gastrointestinal organ as an important issue when they see the state of aged gastrointestinal organ. Therefore, we call the aging of gastrointestinal organ chronic killer of the human life.

 

Slide 56

Next, let’s talk about the procedure to implement regenerative restoration and rejuvenation of gastrointestinal organ. The procedure is as follows: the obtaining of gastrointestinal regenerative substances→ the protecting, activating and cultivating of gastrointestinal organ→ regenerative restoration in situ of gastrointestine→ rejuvenation in situ of gastrointestine→ implementation of the regenerative restoration and rejuvenation plan individually.

 

Slide 57

Now, let’s talk about the procedures step by step. The procedure for obtaining regenerative substances is very simple. How are the regenerative nutrients obtained? They originate from testing on the model of cloning tissue organs from gastric body cells. According to the developing procedure of HBRRS regenerative substances, tissue and organ models of stomach and intestine are established to find the nutritional spectra for gastrointestinal regeneration, and then the regenerative substances are composed in line with the spectra to form gastrointestinal regenerative products. First introduced is obtaining gastric regenerative substances via gastric tissue organ model. An animal model was used. The cells from an animal stomach were taken out to be cultured directly. Remember, only stomach tissue cells were used rather than others, because others such as stem cells are meaningless here. These cells must be tissue cells which are transformed into stem cells, and then they can clone new tissues, just like the mucosa of human beings. In this way, we get the regenerative substances. The GI capsule, though looks like the ordinary medication, in fact, has a very complicated development process.

 

Slide 58

You see, this is the stomach model. Next part, obtaining intestinal regenerative substances via intestinal tissue organ model. For the intestinal model, we need to take out intestinal cells and transform them into stem cells so as to regenerate tissues and then to clone tissue organs. To obtain regenerative substances in this way is very easy, which is different from drug research. What we do is not to attack something using toxic substance. Our products are conceptually different from medications. To eat the regenerative substance is pretty much like eating steam bread, fried dough sticks and the like. This is a new alimentology and brand-new nutrients created by regenerative restoration science.

 

Slide 59

Currently, there are three kinds of gastrointestinal regenerative substance formulae. One is market product, which has been approved since 2001. But we didn’t do large-scope marketing, because we want to further our research rather than obtain benefits. This kind of product is research-oriented and is for conventional use. The second is specific for individual members of our club. Based on their health data, we prepared a specific formula for different individuals. The third is a specifically prepared gastrointestinal nutrition targeting specific diseases, such as that for terminal cancer patients. In these cases, GI is generally severely damaged. In order to extend patients’ lives, we have to find our unique skill. The specially prepared GI capsule is such a product which can quickly restore GI. After all, to save one’s life is the most urgent thing to do in such cases.

 

Slide 60

Next is to protect and activate the GI. Let’s see this model. It is of an oil solution with micro wax crystals suspended inside.

The gastrointestinal technology of HBRRS employs liquid formulation of the regenerative substance oil, realizing emulational mucus isolation via the tight binding of regenerative substance liquid and protecting substance on mucosa, without influence on the release of gastrointestinal secrete and not allowing the direct contact of digestive juice with mucosa. To clean the food remnants accumulated between intestinal villi, a patent formula has been specifically designed with micro wax crystals of 19nm suspended in the liquid to timely clean food remnants between intestinal villi and physically stimulate the brush border of mucosa epithelial cell, increasing the absorptive area and activity.

 

Slide 61

See, after taking the capsule, the shell is still here, but the content has released and attached to the surface of GI immediately. That is to say, no matter what you have such as pepper, alcohol or cold water, as long as you have taken GI capsule, your gastric mucosa can be protected from injuries. So, for the regenerative restoration of GI, we have to create such an environment. As for the effective time, it is four to six hrs after taking of the capsule.. As long as you take it again after four or six hrs, your GI will always be under protection. GI diseases would disappear with the regenerative restoration of the GI.

 

Alcoholic drinking, daily diet, medicine consumption and work stress all can result in the impairment of GI mucosa which is the main cause of inducing GI aging and intractable diseases. Taking alcoholic drinking, medicine consumption and work stress for example, by giving an informed consent of the protective function of GI by regenerative substance, we can realize the prevention of GI aging and impairment in all aspects.

 

Take another example, what does the relationship of consumption of alcoholic drinking with GI impairment? What damages will be caused on GI mucosa by the consumption of alcoholic drinking? This is the picture after taking 125g of white spirit. The GI mucosa looks like this when you feel uncomfortable after drinking. Usually, the gastric mucosal membrane can self-repair quickly. Within three days, it can restore to its normal state. But with the help of GI capsule, you don’t have to suffer from the discomforts. After taking the capsule, the content of it can cover the mucosal membrane to avoid damage. See? The yellow content is covering the mucosal surface. So, when we suffer from motion sickness, we feel nausea, which means that our gastric mucosa has been damaged by gastric acid. It will have been too late to swallow capsule, because it cannot be digested immediately. So you’d better chew the capsule. In this way, the capsule can immediate relieve the symptoms of motion sickness and protect your mucous membrane. The result is very fast and obvious. So, do remember to take capsule before drinking alcohol.

 

Slide 63

China-Japan Friendship Hospital has conducted a study on 30 subjects drinking 125g of white spirit. The GI mucosa was protected in the ones who had taken a capsule before drinking, while the gastrointestinal mucosa in the subjects who have not taken capsule appeared to be acutely erode, damaged, and even bleeding.

 

Slide 64

For the patients who take the medications long-term, the capsule is also effective to protect the GI. Patients with rheumatoid arthritis take anti-rheumatic and non-steroidal anti-inflammatory and analgesic chemical drugs long-term which will harm their gastrointestinal tract. One comparative study has shown that there was no GI damage in the GI capsule-taking group while the GI was hurt in the group without intake of the GI capsule.

 

Slide 65

Another topic that you may be anxious about: stomach cramps caused by nervousness under work stress, which can also do harm to gastric mucosa. Under work stress, oxygen consumption in the brain will increase, gastrointestinal blood flow will reduce, and mucosal ischemia will occur. All of these are inflammatory symptoms do harm to the gastric mucosa. But if you have taken the capsule, the situation will be different. That is, the gastrointestinal mucosa will be normal and no large area of ​​scattered red lesions in stomach can be seen. This is the joint research outcome achieved by China-Japan Friendship Hospital and Xiyuan Hospital. Seeing this, we know how to protect the GI and how to protect the mucusa. Leaving the topic of disease treatment behind, protecting your stomach is the first important thing. You know, this is the root of many problems.

 

Slide 66

Now, we see how regenerative restoration science can regenerate and restore GI. This is a radioactive gastric ulcer that cannot be cured by any other methods; but we can cure it. Even if complicated with gastric cancerization, this disease can be regeneratively restored after one month’s treatment. For example, this patient is a governmental minister who had terminal pancreatic cancer at that time; few treatments can be thought of by the doctor panel, then they thought of me. They wanted to test out my skills and my new regenerative science. That was in 2002 when I just declared my regenerative science. They invited me to have a consultation. You know, the patient has been given up any medical treatment and the Central Government has even written a eulogy for him. What kind of situation it was! Then I said I could make his gastrointestinal mucosa regenerate if he did not die within one month. After one month of treatment (by us), he was healthier than before and was able to get out of bed. His gastroscopy showed that the cancer and ulcers were gone! Since then, his expert panel was convinced and never dared to challenge with me. Sometimes, we prefer to challenge the conventional medication, but finally, you can see from the results. Who is the winner? What is restoration? It is regenerative restoration. What I do is to help medicine resolve medical problems, but medicine is still medicine. Our regenerative restoration science is totally different from it and both of them can contribute to the health of human beings. One should not deny the other. Moreover, medicine has had a much longer history, and regenerative restoration science can resolve the problems that cannot be resolved by medicine.

 

Slide 67

For example, ulcers create a big hole. Although there are many therapeutic methods in medicine to cure ulcers, scarring will result. However, our science can cure it without scars, and the chance of a relapse is slim. Scar tissues lack the function of self-protection. Before, the gastric ulcer was classified as intractable disease due to its scar-caused reoccurrence. But with the regenerative restoration science, ulcers won’t be refractory anymore. So this is what regenerative restoration science is.

 

Slide 68

Then, let’s move on to rejuvenation. Actually, there is no difference between the internal organs and body surface organs. Let’s see the duodenal scar (in the picture). Through regeneration, the duodenal scar is gone and villi grew again in the scar area after the scar disappeared. So what other names can we call it other than rejuvenation? When villi disappeared, we can make it re-grow again, and this is indeed the process of rejuvenation. I believe all of you have a better idea about the concept of rejuvenation by this show. I f there is no premature aging, there is no rejuvenation.

 

Slide 69

Next, let’s see the actual status of the GI system. We observed it by using an SB endoscope and recorded them into a video (Fig 1). In this way, we can see the changes taken place in the whole GI system such as stomach, small intestine, etc.

 

Slide 70

Let’s see these pictures. You will be astonished by what you see. Pay attention to the appearance of the GI in different age groups and especially to the GI villi. Intestinal villi are very scarce, short and thin in the 60- 70 age group; intestinal villi are longer but still very scarce in the 50-60 age group. This is the30-50 age group; intestinal villi are relatively denser than that of the 50-60 age group, while villi are much denser, longer and thicker at 25 years of age. Without the comparison with the 25 age group, you may not realize the obvious difference between the 60-70 age group and the 40 age group in that the later is just slight longer and denser. By examining the 25 age group, we can see that the intestinal villi in the 25 years of age group shows the n the normal healthy state of GI, you must be astonished by the comparison. GI system plays an extremely important role in our human body and it is absolutely more important than our appearance. Only when your GI system is in a normal and healthy state, can you other organs can work efficiently; otherwise, things would be different.

 

Slide 71

Today I will show you how to restore a senile GI system into younger status. This is the duodenum at 60 years old. The stomach is at the age of 25. All of you can make a comparison. Look at the mucosa which is at the young state. This is the younger duodenum. This is the restored jejunum. So, although we cannot return to a youngful in appearance (so far), our GI can and it can live a second life. What I have shown you today have been repeated and confirmed and we are confident of the results. And I am sure we can help all of you achieve the same good results.

 

Slide 72

Next we will demonstrate the achievements of gastrointestinal regenerative restoration and rejuvenation in three groups of videos. Then I will show you the videos of achieved GI regenerative restoration and rejuvenation through three-group studies. First is the three-month group, (comparing before treatment group with 3-month treatment group) which shows the GI can be regeneratively restored in 3 months, or the GI diseases can be removed and the GI can return to a normal state in three months. For example after treatment of a gastric ulcer, an ulcerated mucosa can be restored into normal gastric mucosa in 3 months. The changes after treatment will be showed in the following pictures.

 

Slide 73

See the small intestine and duodenum. You saw bile secretion fly out from here. This is the duodenum before restoration and this picture on the right side is three months after beginning regenerative restoration.

 

Slide 74

Let’s take a look at jejunum; we can see that the villi are denser than before which should be the status at his age. This is already a good status if there is no rejuvenation. Several years ago, I mentioned the GI regenerative restoration without involvement of rejuvenation. At that time, we had not yet achieved the outcome of rejuvenation and the result was obtained two years later.

 

Slide 75

This is the ileum. This is the appearance before treatment while this is the appearance after. You can make a careful comparison between them.

 

Slide 76

That is regenerative restoration. One group of videos shows the gastrointestinal rejuvenation via one-year-period regenerative restoration. Then how long will it take for rejuvenation? The answer is one year.

Actually, in this case, it only took 11 months. This is a general case in the one-year group. Once it has surpassed 11 months, we classify it into one-year group. This is at about 12 months. Look, this stomach has some yellow liquid while that one does not have. What does the yellow liquid indicate? Yes, bile reflux which results from pyloric incompetence, so it is aged. But this does not occur in the other stomach. Now let’s see a more significant comparison.

Slide 77

Take a look at duodenum; the differences are more obvious than that of three-month group. Before treatment, the villi were scarce (left picture) but after treatment the villi are much denser. Very dense! Also look at the peristalsis of the duodenum before treatment (see the video). The peristalsis becomes slower and slower with increasing age. But after one year of treatment, the GI function were restored, the peristalsis became normal and the gastric wall also became thicker (in this case).Reviewing the former pair-pictures of duodenum rejuvenation, we can see that once the organ is aging, the muscle layer will become thin, but it is opposite in the young state. You see there is a difference in the peristalsis of the GI between them.

 

Slide 78

Next is the jejunum. This is the senile jejunum where the villi are extremely scarce, but on the other (right) side, you can tell the difference. They are so dense and vigorous that you cannot find vessels easily. This is the case. Moreover, the GI peristalsis in this (left) picture is so slow. It is aged. Why do the eldly easily feel full, even if they have only eaten a little. The reason is that an aged GI makes slow peristalsis. Why can young people eat a lot and eat quickly? Their GIs have good peristalsis. If we old people could have a well-functioned GI, we can also eat like young people.

 

Slide 79

These are pictures show the ileum, the regenerative effect is same as that of other parts.

All in all, the GI is most important organ in the human body and should be the primary concern in healthcare. All of you can tell the significant difference before and after regenerative restoration, and all of pictures taken after regenerative restoration show much younger statuses than their age. Can we continue to have rejuvenation after one year? Just as I said at the beginning, it took two years to achieve the rejuvenation in some cases. I believe it will last longer after two years.

 

Slide 80

There was a case in which rejuvenation was fulfilled after three years. Next is the the group of 3-year-period rejuvenation, examples are our club members with CAG and/or duodenum ulcer before regenerative restoration. The stomach has been restored, though it is difficult to observe (here).

 

Slide 81

We see the duodenum. This left picture showed what it looked like three years ago (before treatment): scarce villi, thin mucosa and obvious vessels; but after three years treatment, the villi are denser and mucosa is thicker without obvious vessels being seen. This is the difference. These pictures were taken from a patient at the age of 60 years old, so he is not a young guy. The patient is a governmental officer with a minister title and is also the first case of successful GI regenerative restoration (at this level). So to be frank, I feel very lucky that there are some senior officers who stand behind me to support the research. Just now Minister SHAO said he was a volunteer in my club; actually, we have many other such volunteers in my club. Sometimes, they say jokingly they are my test mice and I am very appreciated to them. Without them, I may have not achieved so much.

 

Slide 82

Well, look at jejunum. The right is regenerated jejunum of 60 years old. There is much denser villi and much thicker mucosa. So we can say that this science is a great for the welfare of human beings.

 

Slide 83

What you see is ileum, which is the lower part of small intestine. How amazing these results are! They are just like that of jejunum.

Slide 84

Well, having seen so many actual results, you must have understood what human body regenerative restoration science is. It is totally different from medicine but it cannot replace or deny medicine. Otherwise, you are wrong. What it can do is to resolve some problems that cannot be cured by modern medicine. It is to regeneratively restore all the organs of our human body. Up to now, it has only a three-year study. It is still a three-year study. We have not obtained the fourth year’s data yet, because it hasn’t been four years yet. But at the fifth year, we may get more exciting results; I am trying to announce my outcomes in a five-year interval.

You have seen the relationship (effect) of GI regenerative restoration and the GI system, and now you can understand it. It is not to cure all diseases by taking one medication. So what it is? There are many intractable diseases resulting from GI aging.  This is the same reason why the young do not have so many malaises like the eldly. It is what aging brings about. But once your GI returns to a young status again, your corresponding malaises will all disappear. And so do intractable diseases. This is a very simple truth. So this (regenerative restoration) plays similar role for human health as its brother--medicine. I do not care what disease you are suffering from. What I need to do is to replace your sick cells and then your disease will be gone. As long as your GI is kept in a young and healthy state, diseases will stay away from you. This is its contributions and significance to human body health.

 

Slide 85

A well-functioning GI results in efficient nutrient absorption, which in turn results in the well-functioning of all other organs of the body. It’s like giving you an entire new life. This is a simple relationship. 

 

Slide 86

Next I will show you how to achieve GI regenerative restoration. These have been mentioned before. Let’s neglect them and look at the procedures directly:

 

Slide 87

Procedure1. Orally take the GI capsule (the gastrointestinal regenerative substances).

A.      Swallowing: Directly swallow the gastrointestinal regenerative substance capsules (GIC) with water;

B. Chewing: The GIC is chewed, specifically for the esophagus and the stomach. In this way, the content can directly play role in esophagus cancer and remove it;

C. Combination of swallowing and chewing: Half of GICs are chewed before meal, and another half are swallowed after meal;

D. Individual administration: depends on individual refractory gastrointestinal disease and aging status.

These four methods should be used on the basis of different situations.

 

Slide 88

Procedure2 is the actual situation of the swallowed GICs in stomach (see video). After swallowing, GIC is ground by the stomach; this is the reason why we sometimes feel uncomfortable after eating. Thus, by seeing the actual situation of the swallowed GICs in the stomach, you can see that when we are eating food, we should eat slowly and chew food thoroughly to avoid the GI damage. If you swallow GIC when your stomach is empty, it will directly pass into the duodenum without protecting your stomach.

 

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Procedure 3, when you have GI disorders and your stomach is empty, remember to chew the GIC. You can see the reason from the internal video of GI. After the chewed GIC reached stomach, the GIC content in a liquid state can adhere to the gastric mucosa immediately. The yellow liquid, you see, is the content of GIC, which can instantly adhere to the surface of mucosa. This is the picture of patient with stomach spasm, and spasm is relieved immediately after GIC ingestion.

 

Slide 90

Next is the duodenum. The GIC shell is floating in the middle of cavity while the yellow content has adhered to the surface of stomach. The yellow liquid contains micro waxy crystals, i.e. beeswax, 19μm, similar to the size of normal cells. The crystals can adhere to the villi and remove food remenants. The absorption area of people who like eating oil-rich food is decreased due to food remnants, but after taking GIC, the absorption area can be increased since food remnants can be removed by micro waxy crystals (of GIC). The efficacy of GIC in these people is instant and obvious. This is not GI regeneration yet since regeneration takes at least 15 days. The first few days after taking GIC is not the time of GI regeneration but only the time for removing food remnants and enhancing the vitality of the brush border of mucosa epithelial cells to increase the absorption area and capacity. So the cells continuously receive stimulus in order to be activated which is the first effect after taking the GIC and this effect is not because of regeneration.

Slide 91

The next picture is of the jejunum; regenerative nutrients are digested and absorbed to adhere to the surface of the jejunum to culture mucosal tissues.

 

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And then there is the ileum (see the picture). So if you take 5 GICs, the effects can be seen in the ileum since the peristalsis of the ileum is slow. Large intestine functions to regulate the effects of the absorbed food on lymph system. Environmental change and the digestive absorption are not same conception.

 

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Procedure 4 Next I will explain how to orally take gastrointestinal regenerative substances and how to have our daily meals. The long-standing tradition of Chinese people is: Good nutrition for breakfast, a large potion for lunch and small portion for dinner. But what I am going to say here is different from this. What I will propose is based on the biological clock of human body, that is, the purposes of eating are different.

 

A.  Diet composition: firstly the diet composition has changed. What we should eat depends on what is needed for our cell composition and living. Human beings are composed of cells, while cells are made up by membranes. The membranes consist of 60% protein and 40% fat and sugar, while our daily food intake consists of 10% wheat protein and 90% sugar and fat, which is not reasonable. We do eat meat, but most of us eat pork which consists of half protein and half fat. So the diet composition we proposed is a ‘41113’ system. My club members have followed this for five years, and as for myself, I stew these kinds of food together every day. I buy many kinds of raw food and then cook them together. I have had this kind of food for many years. I experience this by myself. As for what is ‘41113’, you can find more about it from the book we have given you. So what on earth is a rational diet? Answers will differ. We are not in opposite to the long-standing diet tradition. However, if you want to achieve GI regeneration, you’d better follow ‘41113’.

 

B. Diet biological clock: The food we eat can only maintain for the nutrients in our blood for 6-8 hours, so we need to eat three meals a day. After 6-8 hours, nutrients are metabolized; and if too many nutrients that cannot be metabolized, diseases such as gout will result.

      (Our) biological clock diet is designed based on the nutrients demanded by cell activities, that is, we consume less food both for breakfast and lunch but more for dinner.

There are 60 trillions of cells in our human body and 80 % of them act under the control of the brain. When we are sleeping during the night, our brain is also taking a rest, so the 80% cells act freely, and they are self-renewing and repairing at night. That is the reason why we should ingest enough nutrients for dinner. Our study shows that the nutritional absorption is fast at night and slow in daytime. Moreover, the absorbed nutrients in daytime cannot be completely metabolized and used up and thus result in the accumulation of fat. Therefore, the nutritional intake in daytime must be decreased.

Why will human being be aged and die? Because, when we are sleeping, those 80% of cells can get enough nutrients to repair themselves. Besides, when those 80% of cells work under the control of the brain, the GI is taking a rest. Our study results have also shown that nutrients absorption was faster and better at night compared with nutrient absorption during the daytime. Moreover, nutrients absorbed during daytime cannot be fully metabolized. Thus we must reduce food intake during the daytime. When those 80% of cells are actively working, the GI is taking a rest. It is at night when the GI is working. Therefore, if we take too much food during the daytime, it would put great pressure on the GI system. Once the GI begins to work, it will consume 70% of energy and consequently only 30% of energy is left for work, which is the reason why we feel sleepy at noon and need a nap. After an afternoon nap, your GI is emptied and you are energized again. Taking an afternoon break is not a good habit which will only shorten your lifespan. Just imagine, if you work at 24 hrs intervals normally, but now if you work twice in 24hrs, that means you live two days while the other live one day. This is the reason.

 

C .Diet principle for overweight or thin people: You’d better eat all three meals. Only when doing this will brain control on the fat metabolism can be initiated. The fat metabolism and regulation is all controlled by the brain. Without the control of the brain, fat cannot be metabolized. Aside from a well-controlled brain, a well balanced diet as well as a regular diet biological clock can keep you in good shape. Among our club members, some of them were overweight or too thin before joining my club, but now they have gradually reached to the normal weight. This topic will be specially addressed in my future lecture.

 

Slide 94

If you want to regenerate and restore your GI system, our concluded principle is that you must take GIC regularly, 5 before meals and 5 after meals and 5 before you go to bed. Besides, you should also follow your basic diet based on the principle ABC mentioned above.

 

Slide 95

People at different ages all need rejuvenations, but the rejuvenation of any organ is based on the regeneration of GI system. After that, I will give you the specific plan for rejuvenation.

 

Slide 96

Last but not the least, let’s say a few words on the contributions of this technology to human beings.

 

The most prominent one is it can eliminate GI intractable diseases, remove the food remnants and enhance nutrient absorption, and further improve the quality of life and prevent premature aging of other organs resulting from GI disorders. Currently, 270 billion dollars are being spent annually on the treatment of gastrointestinal diseases, which generally are chronic. They are different from an acute disease which can be cured in a short time with less money, but intractable GI diseases cannot be cured by modern medicine, so patients with these diseases have to take drugs everyday and spend a lot of money every year. Thus we can say that economy of expense on the treatment of intractable GI diseases is one of the biggest economies in the world. Then if we introduce the “rejuvenation” concept to the whole world, provided 1/10 of total middle-aged and senile people in the developed countries require rejuvenation of gastrointestinal organs, which costs 10,000 USD for each person, the contribution to total GDP will be over 6 trillion, so GI rejuvenation can greatly influence the world economy. The economy regarding gastrointestinal rejuvenation will pay key role in the world economy, since every human being has the demand for rejuvenation! If people over 35 years old all require rejuvenation of gastrointestinal organs, how many times of the current world economy is the economy regarding gastrointestinal rejuvenation??

 

Slide 97

Well, that is all for today. Thank you very much! If you have any q, uestions, please do not hesitate to ask.

 

Note: This paper is based on the tape record of Demonstration Lecture on the Application of Human Body Regenerative Restoration Science given by Professor XU Rong-xiang on Sep. 16, 2011.