Details
Nothing to say, yet
Big christmas sale
Premium Access 35% OFF
Nothing to say, yet
Calcium is an important mineral in the body that plays a role in various functions. However, our society is often deficient in calcium due to stress, poor diet, and other factors. Most calcium supplements are not in the form that our body can easily use. The only form of calcium our body uses is calcium ion. Existing calcium supplements are absorbed but not effectively utilized, leading to calcification and other health issues. SAC Calcium has developed a breakthrough in calcium supplementation by providing the native calcium ion that our body needs. This new calcium supplement can help address calcium deficiencies and support various bodily functions. ♪ ♪ ♪ ♪ ♪ ♪ ♪ ♪ ♪ ♪ ♪ Good day everyone. Welcome back to the Doc of Detox show. Today's show is called The Science of Calcium. I am here with Jay Lee, the CEO of SAC Calcium. He is going to help explain the science behind the calcium breakthrough in decades. When I say decades, I absolutely mean decades. I want you to understand something. We know that nutritionally speaking that calcium is the most prominent mineral in the human body. We know that calcium is the communicator for the cells. That might be important. We know that calcium gives you your structure, but we also know that we live in a society where calcium is always in a 911 emergency, even on a subconscious level. People don't even realize this, which means that we're dumping all types of adrenaline and cortisol into our body on a constant basis. This causes our body to want to buffer this down. What does it use? It uses calcium. They say that the most efficient mineral in human beings in North America is actually magnesium, but the problem here is we need so much magnesium because we're losing the calcium from our bones and it's being placed in our joints and organs and tissues, which is making us as stiff as a board and it's premature aging. It's causing all this pain. Look, do your homework, do your research, but today I promise you that you're going to hear one of the most life-changing, life-saving breakthroughs when it comes to science and nutrition. Here we have it, where nature and science actually came together to bridge the gap to give us one of the most powerful healings. Would you like to take a product that for the last hundred years, if you go to PubMed, you'll see thousands of research studies and documents talking about if only someone could figure out how to get the ions of calcium back into the body to help to regain the osteoclast, the osteoblast, to turn on the P53 gene, which actually turns off cancer, causes cancer to destroy itself. There's so much more behind this, okay? Remember, this one nutrient will do over a hundred thousand processes per second in your body, and here it is. Here's the breakthrough. So I'd like to introduce my good friend Jay Lee from SAC Calcium. Good day, Jay. Good day, Dr. Wolf. I'm pleased to be here. Listen, it's so nice to have you, and for those of you who are watching, understand something. You're in for a treat. He is going to take you through a slideshow in the next hour and a half to an hour and 45 minutes, but listen, sit through it, and be prepared to be amazed on how something was invented in a lab, but is natural to your body, and it restores your body back to that parameter of a youthful, vital state. Take it away, Jay. All right, here we go. Definitely pleased to introduce to you, I would say a remarkable invention of new calcium. Now, we get different sorts of different kinds of calcium supplements, but then they talk about the absorption, which is absorbed better, but then absorption is not really the biggest issue here. It's the utilization of calcium, and our body only uses only one type of calcium, which is calcium ion, and there is really no supplement out there that can put the native calcium ion in our system. So I'd like to go through the entire presentation of the scientific breakthrough of SAC calcium, and calcium is actually the most misunderstood nutrient, because as we age 40, 50, or 60, 70, and 80 years old, we know that our bone is losing calcium, and we get osteopenia, osteoporosis, and doctors have been recommending people to take up calcium. Of course, getting calcium from natural foods is better, but then for most people, because of their diet and lifestyle, I like to get the native calcium from supplements, but then there's a problem. When that calcium enters our system, it is not in the form that our body can use right away. So, well, here we go. Well, let's look at the functions of calcium. Now you can see here, calcium plays a very important role cellularly. Inside a cell, all the processes require calcium, and also endocrine system and our nervous system, but calcium is used for almost everything in our body. Here are some of the highlights. Muscle and heart contraction. A heart cannot pump without calcium. A muscle cannot contract without calcium. It's not just bone and teeth, but it is used for blood clotting. Stem cell regulation. We have tons of stem cells ready to go to work, but then if the calcium is not in the right concentration, then our stem cells are not utilized properly. What about neurotransmitter? This is how our nerve system, all the synapses use calcium to communicate signals, and also calcium is second messenger. When the hormone reaches the receptors of our cells, then from then on, calcium gets active to really translate what that means. Fertilization. For sperm to find an egg, it's like a blind person finding a house miles away. Without calcium signaling, fertilization cannot take place. Actually, nowadays a lot of couples are infertile because of calcium deficiency. Hormone secretion, like insulin, is a calcium dependent process. Without having proper concentration, your endocrine system is going to be in mayhem. Enzyme activation. And also for your immune system to work properly, you need calcium. For your cells to maintain good stability of your cell structure and membrane, you need calcium. And also when cells are multiplying, if you do not have the right concentration of calcium, then during the replication, there are going to be errors. That's how even cancers arise. But notice this. I was talking about calcium, but on this slide, you see CA, which represents calcium, but then there is 2+. That means calcium ion. There's only one physiologically active calcium in our body, and that is ionic calcium. All the calcium our body uses to do these processes require calcium in ionic form, CA2+. However, you'd be surprised. All the calcium that we put in our system, whether you're getting it from your food, broccoli, spinach, or cheese, it does not matter. All the calcium that you get into your system, even from supplements, it has to go through digestion. You need very strong stomach acid. You need the help of peptides and vitamin D3, and it goes into your system through the duodenum of the small intestine as protein bound calcium. Do you see here? This calcium that goes into your system is protein bound. Protein bound calcium is not physiologically active. It's more or less standby calcium. Calcium goes into your body. It's just sitting there until certain conditions are met for our release of calcium ion and utilize that protein, and then our body can use calcium ion. So just know that calcium goes in as protein bound calcium. It's not physiologically active right away, and certain conditions have to be met in order for our body to use it. Now, that's why we do have problems with calcium and also calcium supplements. Calcium can be absorbed, but because it's in inactive form, if you're inefficient in releasing that calcium ion, then all the calcium that goes into your system can actually calcify your system. So absorbed, but unused, and some of that will be excreted, and some of that will be calcifying your system. And a German study found a significant increased risk of heart attack among women taking calcium supplements. The doctor has been telling you, take calcium supplements, but then after years of taking it, it's not going to your bone to build it, but rather it's ending up everywhere else, including vascular calcification. Now, that's a problem, right? Let's look at this interesting fact. Astronauts, they're spending six months in space station. They lose, in average, about 14% of their bone mass while staying a half year up there, and some actually lost about 30%. That means you're going up there with 30 and 40-year-old bone, and then coming down with 80-year-old bone. Think about it. Do you think they did not take a good diet up there? All the food is engineered to provide optimum nutrients, including calcium, and they are taking in calcium into their system. However, it goes in as protein calcium, but like I told you before, our body needs calcium ions. And because there's no gravity in space, the bones are not stressed, and then that protein calcium is not utilized well. So body needs calcium ion, and it's taking out from their bones, right? That's why even with plenty of calcium absorbed in their system, body still thinks they are calcium deficient, and getting the needed calcium ions from their bones. Now this is calcium dilemma, right? Our body still thinks, even with plenty of calcium in their system, because they cannot utilize the protein calcium, it feels it's calcium deficient in taking out calcium ion from our bones. Okay? So we have a lot of calcium issues. First is we are eating a lot of junk food that makes our body acidic, and then our bone has to release calcium ion to neutralize the acidity in our system. And as we grow older, our stomach acid gets weaker and weaker, and we cannot even get this protein calcium into our system, right? Lack of exercise, sedentary lifestyle, all these is causing our body to think that we're calcium deficient. Stress and fear also causes our body to be acidic, and causes inflammation later on, which also leads to lots of calcium from our system, right? So calcium has a lot of dilemma here. You see, because our body only uses calcium ionic form, it tends to maintain a really good amount of calcium in ionic form in our blood. 50% of calcium in our blood is in ionic form. 45% of our protein calcium, and 5% inorganic calcium, right? So when the calcium ion is depleting, then protein calcium is supposed to give off calcium ion, but then because of our lifestyle, because of our diet, and the protein calcium is not utilized, so we keep taking calcium out from our bones. So here is an introduction. This is the invention of new calcium carbonate. We call it sigma antibonding calcium. Sigma antibonding calcium is the world's first calcium ion deliveries, and for the first time, we're able to put calcium in ionic form, not in protein calcium format. Wow. So that means this calcium can go to work right away. So here is how the SAC calcium looks like. SAC stands for sigma antibonding calcium. Now you can see here that the molecular structure is similar to regular calcium carbonate, which is the most abundant form of calcium, but regular calcium carbonate has very strong pi bonding, and here is indicated with a single line. But then you see here, SAC calcium carbonate, you will find the dotted line because now we have utilized weak sigma antibonding. So because the bonding is so weak and calcium ion can be easily taken out, it still has that positive 2 charge. What is sigma antibonding, you may ask. It's a very unstable form of bonding, so in nature on this planet Earth, you're not going to find any molecule with sigma antibonding still intact. You will only find in the bottle of byproducts. So sigma antibonding is when the orbitals come in ways that are predominantly destructive so that it remains in higher energy, and you know how all the molecules want to go to a lower state of energy to be more stable, so these atoms do not want to stay together. But we have managed to keep it together in room temperature, and that is our scientific breakthrough. So we kept sigma antibonding stable. So this is how, this is the orbital pictures of weak sigma antibonding, and here is regular pi bonding of all the calcium that you can find on this planet Earth, whether you're getting from supplement form or from food, it doesn't matter. In nature, calcium is bound with other atoms with strong pi bonding. Look at the chemical equation here. SAC calcium carbonate, this integrates into calcium ions and oxygen and to carbon dioxide. And compare that with regular calcium carbonate, which gives us calcium ion and carbonate. SAC calcium is 200 times more soluble than calcium carbonate. Now let's look at the chemical equation again. It disintegrates into calcium ion and oxygen and to carbon dioxide. Is there anything here that you find that is artificial? So even though SAC calcium is manufactured, is man-made, in a way that it is absorbed into our system, it is completely natural. Oxygen, carbon dioxide, calcium ion, our body knows what to do with it. It is very natural to our body, and there's nothing here that's man-made. And SAC calcium, because it has that charge still, it works together with the hydrogen bond of water molecules. So it has a very unique property as well. Here, when we leave the bottle open and the water evaporates, SAC calcium actually flies out together with water molecules. So we call this flying calcium. No other calcium will do this. Try to melt or dissolve as much calcium as you can, and then let the water evaporate. You're going to find very thick residue of white substrate in the bottom of the container. But not so with SAC calcium. They just simply fly out. So here is SAC absorption. Passive transport means that it does not require any energy from body to be absorbed. No ATP required. No digestion required. Once a product is mixed with water, 1 to 100 ratio, and taken in an empty stomach, it goes into our bloodstream as pure calcium ion. There's no digestion needed, no vitamin D, and no peptides. It goes in as active calcium ions, which our body recognizes right away because it's the only physiologically active form of calcium our body needs. So instead of taking out calcium from your bones, our body can utilize this right away. So here is the comparison. The first one is active transport. This is how all the other calcium is taken into our system. It is vitamin D, peptide. Through a small intestine, it goes and adds protein calcium. And this is how protein calcium looks like. Unless protein calcium releases calcium ions, it is just a standby calcium. And SAC calcium is the only calcium that is absorbed passively without needing digestion, without the help of peptides and vitamin D, only through diffusion and osmotic pressure, it goes in as pure calcium ion, and it goes to work right away. Now, when SAC calcium is absorbed as calcium ions, it raises the concentration of calcium ion in our blood to safe reference level, and our body detects it and our body tries to bring that down to the normal level. That is, while it goes up and down, within about four hours of time, amazing things are happening. Of course, some of that will be excreted through urine, but it actually triggers osteoblasts. Now, pituitary gland signals thyroid to release calcitonin, and this calcitonin stimulates osteoblasts. That is our body's natural bone building process. So, while it goes up and coming down, it also diffuses through all of our body and goes where calcium ions are needed. Some doctors have been asking, well, if you put calcium ions directly in our system, could that cause hypercalcemia? Not so. Not with SAC calcium. SAC calcium has about an average 5 mg of calcium. Think about it. You go out there and you buy a regular calcium tablet. It's 500 mg, 700, 1000, right? We're only putting 5 mg, but in only ionic form. So, average adult has about 250 mg of calcium ion, and SAC is adding only about 5 mg, which is about 2% increase, or 0.1 mg per deciliter. So, from 4.3 to 5.6 mg per deciliter of calcium ion is considered average, normal, and up to 8 mg per deciliter is considered mild hypercalcemia. Do you think adding 0.1 mg is going to cause hypercalcemia? Not so. Not so. But the interesting thing is that by adding this tiny amount of calcium ion, our body still can be turned on. In other words, our body is so sensitive to the change of calcium ion concentration, our body can pick that up and turn on certain switches that can bring in hosts of good repair and health responses. And one of that is bone building osteoblast. That's why if you have excess calcium in your blood, actually adding SAC calcium in your system, you can turn on osteoblast and take all that excess calcium back to your bone so it actually relieves hypercalcemia. So, here is a diagram that we find in biology books or medical books. It says here that if calcium ion level is too high, then thyroid releases calcitonin, which increases calcium ion deposition in bones. Contrary, if calcium ion level is too low, then parathyroid hormone is released, and it takes out calcium ion from our bones. It's called resorption. Most people fall under category A, meaning that even with enough calcium in our system, our body still thinks that we are calcium deficient because it's not in the right form, and we're not doing physical activities that challenge our bones. Protein calcium is not utilized. Your body still thinks you're calcium deficient, so it leaves this parathyroid hormone-led bone resorption, taking out calcium from your bone. But the thing is that our body as we age tends to take out more calcium ion from our bones than needed. Let's say you needed 10, then your body will take out 12. And after using up all the calcium, if there's any left over, don't think it's going back to your bone. It actually accumulates in cellular level in soft tissues and bone spur, and it becomes one of the major causes of degenerative diseases. Most people fall under category A. But there are an increasing number coming into category B, thinking that, you know what, I need to maintain strong bones, so let's get good calcium diet with magnesium, vitamin D, and K, and you do bone stressing exercises and activities, so you may have less parathyroid hormone-led bone resorption. That's good. You're keeping more calcium in your bones. You're utilizing more protein calcium. Very good. It has good health benefits. However, you're just delaying this process 5, 10, 15 years. Ultimately, as you get older, your body, because of the reduction of the growth hormone and sex hormone and production of calciponin, production of calmodulin and osteocalcin, the protein calcium is not going to be utilized as well. And it's getting there a little late, but you're getting there. But for the first time, because of SAC calcium, and we're able to put in calcium ions directly in our system, we can now initiate thyroid hormone-led bone building. We can really trigger osteoblast, and we're able to build a bone the way they were able to build bones when we were younger. This is a natural process. We're not violating or tweaking bone metabolism. We are just turning on the switches that we couldn't turn on before. This process brings balanced calcium homeostasis, and it reverses many calcium-related diseases, many of them. It's thought to believe that there are more than 100, some say 140, 147, 147 diseases that are related to calcium deficiency, or I think the better way is calcium displacement. Because the body thinks that you don't have calcium ion taking out from your bone because it thinks it's deficient, but then we have all this calcium accumulated all over, inside your level and soft tissues. So it's actually calcium displacement, calcium in the wrong places in your body. Dr. Robert Haney said, of course, all of these diseases may have many causes, but they also all have one thing in common, calcium deficiency, or rather calcium displacement. So here, women actually, especially post-menopausal women, have a disadvantage. After they hit menopause, they lose about 3-5% bone mass every year. And then all that calcium gets deposited in cellular level. That's more dangerous. When there's too much calcium ion deposited, and then filling the reservoirs of our cells, then we have cell signaling disruption. Our cells cannot communicate properly. Do you know that our cells are communicating complex language, and it's using calcium ion to do that? Inside the cell and outside of the cell, so extracellular, intracellular, calcium concentration difference can be more than 10,000 times. There's huge bandwidth. And calcium ions go in and out, in and out. It's a way of signaling. But then if there's too much calcium deposited intracellularly, then cells lose that bandwidth. Now it does not really have enough bandwidth to communicate properly. It breaks down cell communication. Communication breaks down and everything breaks down. So diseases can occur from cellular level. Before I go any further, I just like to differentiate SAC calcium from regular calcium supplementation. As you heard before, that we're not really putting a lot of calcium ion, just 5 mg. You still need to get a good calcium amount from healthy source like food. Dark leafy vegetables is good. Broccoli, kale, spinach is all good. But then what SAC calcium does is that even though it goes in tiny amount, it's going in as ionic calcium. These calcium ions can turn on certain switches that could utilize all the other calcium in your system. Once the switch is turned on, that means all the inactive protein-bound calcium gets utilized as well. Not only that, all the excess calcium that's accumulated in the wrong places of your body now can be utilized as well. The body starts to release or dissolve this calcification and bring them all back to where it needs to go, which is your bone. Just putting calcium in your system is not going to build your bone. You could calcify your body more, but it's even more risky. But by putting SAC calcium and turning on the proper switches, it can utilize all the calcium, including the wrongly deposited calcium. So it decalcifies your body from cellular level, bone spurs, soft tissue calcific tendinitis. All this calcium can be dissolved and go back to your bones. This is not calcium supplementation, but I think it's more properly called ionic calcium therapy. Here we like to make one scientific claim that we found a way to put calcium in ionic form in our system. That's the only medical claim that we make. Everything else is our body's natural response to calcium ion entering our system. And everything is so natural. It does not have negative side effects. Research has shown that senior women who have really low bone density are more than twice likely to develop Alzheimer's disease. Not only that, let alone osteoporosis and arthritis, all these aging-associated multifactorial progressive diseases, they occur usually in seniors, and the occurrence is more for those who have low bone density. Actually, a study done in Denmark for 35,000 people, this was a long-term follow-up study, and the study found that if you have strong bones in your 50s, then you will actually live 11.6 years longer. Now, what would you pay if you could live 11.6 years longer? So you've got to have strong bones. See, the bone is not just supporting your body, but it's supporting your nervous system, endocrine system, it really supports your cardiovascular system, it supports everything, all the way down to cellular level. So let's look at SAC calcium's effect in osteoporosis first. We know that osteoporosis is a debilitating disease, and a lot of people as we age suffer fracture because of osteoporosis, and a big percentage of patients who suffer fractures, they die within one year. It's very dangerous to have osteoporosis. But guess what? This happens to everybody. It happens to everybody as we age, it's just how fast you get there. So there are a lot of drugs out there, a lot of them are bisphosphonate-derived, but research shows that serious and long-lasting problems associated with taking bisphosphonates, like abnormal heart rhythm, incapacitating bone and joint muscle pain and bone loss, and sometimes you just walk down and then your bone will just crumble, or bone starts to decay. So it's kind of very dangerous to be taking these drugs without really knowing the risks. So it's good to really ask your doctor whether you're the right candidate, but then don't forget that these drugs also come with a lot of side effects. Some of these side effects include blood in stool and urine fatigue, stomach ulcers, nausea, hair loss, headache, blurred vision, pain swallowing, severe pain in bone and joint muscle, very bad heartburn, blood clots in the vein, hot flashes, cramps, and some may actually cause cancer in rat tests. You know why patients are experiencing this? It's very simple. Let me tell you what's really happening in your bone. Every day you're living, you're carrying your body weight, climbing up the stairs, sometimes you have to run, you've got to carry some heavy groceries, your bone will be experiencing micro-cracks. Now these micro-cracks have to be cleared up by a process called osteoclasts. These are the cells that just emit hydrochloric acid and just wash clean these micro-cracks. Then after it's finished, it calls for osteoblasts. These are the cells that come and put freshly coated bone on top of it. When we're younger, as we're clearing up these micro-cracks, we're putting a thicker coat of bones. So this happens. Average, every seven years, our entire skeleton is replaced. And we do this about five times in our lifetime. So up to age 35, 40, we still build our bone because osteoblast is stronger than osteoclast. But you know, something happens after age 35 and 40. You can see that in the bone density graph. It goes up and then it kind of plateaus and then it falls down from age 40. We cannot build bone any stronger. From then on, we're taking out more than putting in. That's because we really cannot utilize protein calcium that well. And there are a lot of hormonal changes in our body. So where do our body get that needed calcium ion? It's taking out from the bone. But these medications, by slowing down osteoclast, it's actually preventing calcium to leave the bone. So you're thinking that you are actually reserving calcium in your bone. You're coating your bone so that calcium cannot come out. But no calcium can go in either, right? Think about this. If body still needs that calcium ion and has to take off from your bone, even at the cost of losing the bone density, because our body needs it. Our heart needs it. All our needs that needed calcium ion. But if you are blocking your bone so that no calcium can come out, then that's going to be affecting all the other systems of your body. And these are the results that you're getting. These are the side effects you're getting. Some of them, not because you're able to get that needed calcium ion. So SAC Calcium had published laboratory research. Here they are. And one test, we compared bone building power with regular calcium. And this was done for nine weeks. And as you can see the graph here, when we did the bone breaking test, SAC Calcium was 100 times stronger in bone building power than regular calcium. And we did the other test. We removed the ovaries from the rats and induced osteoporosis. We induced osteoporosis and these ovary optimized rats, as you can see here, start to lose bone density rapidly compared to the control group. But then with SAC Calcium added, you can see here that bone density has risen rapidly to that of the sham. Here is the bone density of one gentleman. And you can see for his age he had low bone density. Even though he was in his 40s, he was nearing osteoporosis. Maybe he had a lot of trauma and stress in life or his diet was not healthy. Whatever the reason was, but then taking SAC Calcium and we measured after three months later, another three months later, so within total about six months period of time his bone density reached normal level. Now, something like this is considered almost impossible. You don't really see this happening even with medications with calcium supplementation. It's hard to see this kind of rise within such a short period of time. His T-score increased of 1.5 each six months. Here is another sample for mineral density measurement. The blue dot is previous measurement and the red dot is the latest measurement. 60-year-old female, T-score increase of 1.4. Here she was in osteopenia. The yellow is osteopenia. The red is osteoporosis and green is normal bone density. And she was able to reach normal bone density within three months. Again, something like this is considered impossible. As we get here, 56-year-old female from osteoporosis, that blue dot, and to the red dot, which is osteopenia, which was kind of normal for her populace, the group of people that she belonged to. That's T-score increase of 1.7 within three months. Look at here, another from minus 2.6 to minus 0.6. This is from the DEXA measurement. T-score increase of 2 in about three months. Something like this, again, is considered impossible. Look at here. It's not just utilizing protein calcium, but it also involves calcium deposits. Here is a lady with calcific tendonitis. On the left you will see calcium deposits. Usually the shoulder calcific tendonitis is very painful. This x-ray is a little over one year apart. She was experiencing a reduction of pain way before. As you can see here, the calcium deposits completely disappeared. This is something that you don't see often. Here is actually enlargement of these pictures, so you can tell the difference between the before and after pictures. Here's another x-ray picture. A 60-year-old male had infected tooth. The molar had infection, so that you can see that the bone is kind of eroded away. But then after three months and seven months and after ten months, the extraction site is completely filled up. Now I have asked so many dentists is this possible without bone graft? And they told us that no, it's not possible. But this happens with SAC calcium. Think about it. This is not just filling the socket, but it's strengthening your entire jawbone. And going beyond, it's strengthening your entire skeleton. And this happens in a very relatively short period of time. And that is no side effects because it's actually triggering our body's natural bone building process. It actually brings your bone a turnover rate to a healthy rate. That means your osteoclast really breaks down these micro-cracks and rebuilds and it does this more quickly. Here's a significant improvement you can see from the same patient. This is the overall x-rays before taking SAC and this is after. So I'm going to show you once again. Here's the before. And you can just picture your eyes in just one of these pictures and then see the after. As we age, our teeth tend to get longer because our alveolar bone is receding. But here we can see that even alveolar bone arises. It's a great effect, a health effect for the gum disease. Here is a young girl, 10-year-old, has bone necrosis and the hospital recommended her to amputate. But after taking SAC, and this is within one month period of time, that she kept her limb. This is a life-changing story. This is really SAC restoring bone metabolism and rebuilding the bone, making the entire bone healthier. I'd like to focus a little bit about stem cells because you see here how the bone is built and then even bone necrosis disappeared. That's because there's active function of stem cells within our bones. Here's an excerpt from one research. It says here that acting as an intracellular messenger, calcium ion has a key role in cell signaling pathways in various differentiation stages of stem cells. Calcium ion mediated signaling is essential for the maintenance of stem cells, promoting their development and differentiation. So there's a huge therapeutic potential. Most people, as we grow older, we have our body senses calcium deficiency and too much calcification. Anyway, calcium signaling is way off. In old days, when we are tuning to radio, remember turning those big knobs and then as you were approaching the station, the volume gets louder and louder and then you start hearing something and then when it hit the sweet spot, you could hear beautiful music flowing out. Just like that. Our stem cells get to work. It needs that precise signaling. Then with all the calcium concentration off, our stem cells are not able to hear the proper signaling. That's why as we grow older and have more calcification, our stem cells really don't know what to do. Just sometimes sitting there. Losing all that therapeutic potential. In our mouth, we have a very active stem cell. We call it human periodontal ligament stem cell. It's very active. It resides within periodontal ligaments and that's what's really differentiating into to build root cementum and also initiate osteoblasts to really build alveolar bone. That's why we've been experiencing amazing changes for patients with a lot of dental issues. Let's say if you have entire teeth all loose, what are you going to do? You're going to be replacing each one by implants. That's going to be costly and takes time and it's risking your health by doing that. But when SAC calciums enter your system and stimulate the stem cells and start building your bones, then in a relatively short period of time, you can have all these teeth set tight again. We have a lot of patients who are so happy to have all these issues go away. Here in one of the research, its conclusion says that the concentrations and the ratio of calcium ion and phosphorus ions could significantly influence proliferation. Again, stem cells need precise concentration. Here it says that you need to have 2 to 1 ratio of calcium ion and phosphorus ions. Guess what? Most people do not have this. When your body still thinks you're calcium deficient and your cells are all calcified because extra calcium ion is sitting in the walls of mitochondria, it reduces the function of mitochondria, it produces tons of free radicals and cells cannot communicate properly. There's no way stem cells can work properly. With SAC calcium, we can kind of reset calcium homeostasis and bring our body into proper calcium ion concentration everywhere so our body can now communicate and then turn all these stem cells to do their work. You know that all these mesenchymal stem cells in our body are there to really help damaged cells. We can also actually donate mitochondria to damaged cells but that too is actually a calcium-dependent process. Calcium is used to transfer mitochondria to damaged cells. So let's look at SAC calcium's effect on arthritis. Now, not too many blood vessels go to our joints. Of course, some of the nutrients are dumped into the synovial fluid and then that's how the nutrients can be provided to our cartilage. Now cartilage is a living cell. It's a living tissue and calcium ion can go anywhere. So if you actually have calcium ion concentration off, then again, the chondrocytes, the stem cells within our cartilage also cannot work effectively. But with SAC calcium, the calcium ion can go in there and then it could actually bring the balance of the right concentration of calcium. And calcium is like a leader for other nutrients as well. So once that all the excess calcium is dissolved and brought back to your bone, bone spurs begin to dissolve and all the crystals dissolve, then decalcification can happen in cellular level and our chondrocytes come alive and start repairing the cartilage and they grow the cartilage again. So how is SAC good for arthritis? First of all, it dissolves all the crystals apart. It can be very painful to have this. SAC calcium can do that and by having the ideal calcium concentration, it actually corrects immune response. So your body's own immune system will not attack the joint mistakenly and repairs cartilage by going deep into the cartilage matrix and then stimulating chondrocytes to restore the structure and also alkalizing effect of SAC calcium. It eases inflammation. Now our body actually naturally uses calcium ion to really restore our body's pH to 7.4. And having SAC calcium in your system, you could get there quick and reduces the pain. Here is one resource I'd like to share. It says here that cartilage formation requires a concerted action of numerous intracellular signal transduction molecules, many of which are sensitive to the changes of intracellular calcium ion concentration. If you have the concentration of calcium ion all, it's really hard to get that cartilage to be repaired. The chondrocytes to get to work requires very precise concentration of calcium ion. Now we can have this because of SAC calcium. We have patients who have been suffering because of gout for such a long time. In fact, there was one young man for 19 years, tried everything. His life was so, his diet, everything was so restricted, he tried everything but could not get it fixed. But then SAC calcium, it brings your body to ideal pH and all this crystal deposit starts to melt. And that same young man really experienced the freedom from the pain of gout in a relatively very short period of time. We're talking about days, not even months. So let's go into SAC's effect on cancer. Now that we are providing essential nutrients, probably one of the most important nutrients as we grow older, the calcium in its needed form, ionic calcium, being able to turn on switches to decalcify in every level. So what kind of effect is it going to have on cancer? You know that cancer, most of the cancer, it grows and it spreads in an acidic environment. It does so by changing its metabolism that produces lactic acid. People thought that lactic acid is just a byproduct of the cancer cell, that cancer also feeds on to produce energy. But then actually lactic acid does more. It acts like invisible cloth. In other words, this is what happens. When cancer cells produce lactic acid, it brings down the pH of the local microenvironment down to let's say pH 66.5 and it actually turns off our immune response. And it actually becomes, because of it, the basis because the immune system cannot see the cancer anymore. It really becomes the establishment of the malignancy. So the lactic acid is not just a metabolite, but rather it is something that cancer uses to invade our immune system. When calcium ion is introduced, it goes and neutralizes lactic acid. It makes calcium lactate and then brings the body pH up, the microtumor environment to 7.4 and it turns on our immune response. Now our immune system can see a cancer and start attacking. Here is another research I'd like to share with you, how calcium plays a role in killing cancer cells. It says here, if I can just read the red highlighted sentence, it says here, the rise of intracellular calcium ion concentration is required for efficient cytotoxic T lymphocytes and natural killer cell function and thus for killing their targets, in this case cancer cells. It supercharges, in other words, our immune system to go and kill cancer cells. Dr. Carl Raich, he considered cancer as the ultimate adaptation of ionic calcium deficiency. This is what he said, tailor made to survive and to thrive in an ionic calcium deficient environment. You see how if you open up healthy cell, let's say you find about 100 calcium ions. How many do you think you're going to find if you open up cancer cell? Probably one. That alone kind of tells you there is relationship between calcium ion deficiency and cancer. But not all cancer is acidic. There's some cancer that is alkaline, like sarcoma, leukemia, lymphoma, but then calcium ion from acetic calcium can go and neutralize ammonia. So it's good for both acidic cancer and alkaline cancer. It's a very smart atom. It knows what to do. And then by neutralizing ammonia, that says it can also help cancer anorexia patients as well, as these researches show. Another interesting strategy of using calcium ion to help cancer patients is restoring the function of P53 gene. Now P53 gene is probably the most studied gene in cancer research throughout history. P53 gene is more like a guardian cell, a guardian gene. It goes through the cell cycle and finds out if anything is wrong with the cell and if it's repairable, then it needs to be repaired. If the cell is too damaged and it's not repairable, then it initiates apoptosis, which is more like self-destruction, programmed cell death. And that's the life cycle. When a cell is damaged, then the damaged cell dies off and then it's replaced by a healthy new cell. But then most human cancer cells have this P53 or a way to induce P53 is somehow interrupted or turned off. So there has been a lot of research. How can we restore the function of P53 in cancer cells? Think about it. Chemotherapy is destroying cancer cells from outside with a lot of collateral damage. Same with radiation therapy, immunotherapy. But why not? Why not turn on the switch that's already in there, the kill switch that's already in there and let cancer cell come to the right mind and realize that it's time to die off? So there has been a lot of research done. How can this P53 gene be turned on? And one research found out that cancer cells do make a lot of NF-kB protein and cytoplasm and it interferes with the function of P53. And when calcium ions were introduced, it actually broke the dance between the two and it helped restoring the function of P53. That's good news, isn't it? It can be a very, very effective way to treat cancer. Here's one research. It says here that activation or reintroduction of P53 induces apoptosis in many tumor cells and may provide effective cancer therapy. Interesting. Here's another research I'd like to share, treating P53 states by calcium. And I talked already about NF-kB protein. This is how calcium ion can really break the dance between the two and release P53 to do its job. And there's another research that found how calcium ion induces the synthesis of nitric oxide that could trigger apoptosis process by activating P53. So P53 involves calcium ion in the process. If you don't have the proper concentration of calcium ion or too little of it, when the cell signaling is interrupted, then there's no way that P53 can work properly. There's another research that shows how adding calcium ion will inhibit these processes and can really make P53 from less active to more active. Now there are tons of studies done. And this research shows that experimental works of the past decade have highlighted the importance of calcium ion in the regulation of apoptosis. And it goes on to say that perturbation of ER calcium ion homeostasis appears to be a key component in the development of several pathological situations. And it says sensitivity to apoptosis depends on the ability of cells to transfer calcium ion from the ER to mitochondria. Now that's going to be interrupted if you have too much cell calcification. There's another benefit that you can get from calcium ion for cancer patients. It's because calcium ion is a good inhibitor for COX-2 enzyme, COX-2 enzyme. Now COX-2 enzyme is a very strong inflammatory enzyme that really promotes cancer growth and apoptosis. In some of the cancers, including neck and head cancer, you could have 100 times more COX-2 enzyme. And then in some pancreatic cancers, 60 times greater than normal pancreatic cells. It fuels the cancer growth and it increases the cancer's adhesion and then it also helps cancer cells to apoptosize. This COX-2 enzyme can be tamed or inhibited by acidic calcium, by providing calcium ion in our system. Now here is an interesting fact. According to mitochondria-free radical theory, when all this calcium gets deposited in the cellular level, you'll find a large accumulation of calcium ion inside the membrane of mitochondria. Now you know that mitochondria is the powerhouse of our cells. That's where the Krebs cycle happens and a lot of ATPs, most of the ATPs are produced. For healthy people, you need to have this healthy mitochondria. But because the calcification cellular level and the accumulation of calcium ion in the membranes of mitochondria, our mitochondria gets damaged. It does not produce much ATP and the bigger issue is it starts to manufacture, create a lot of reactive oxygen species that need it. Free radicals that will damage your DNA and RNA protein and it results in cell mutation. And guess what? This is actually the main driving force of aging and cancer. All the calcium that's taken out from your bone, our body takes more than needed and slowly it's accumulating in cellular level and it damages mitochondria. It produces a lot of free radicals that really destroys your cellular function. It's a terrible thing when this happens. There's no plant-based antioxidant that you can take after neutralizing it all. You cannot neutralize all of it. You're making too much of it. Dr. David Sinclair discovered that when he actually improved the communication between the DNAs of our cell nucleus and mitochondria, when the communication is restored he could not tell the difference between six-month-old mouse with two-year-old mouse. So that's very interesting, right? Mitochondria, the health of mitochondria, can be restored by decalcification effect of SAC calcium. This is actually an in-vitro test that we did. We had a heart cell and we left it in the room temperature and it grew colder. So as you can see the infrared picture shows it's cold, right? And when calcium ion was introduced you can see after 10 seconds and 20 seconds and 40 seconds these cells are firing again! And this is in-vitro, right? These mitochondria is firing again, producing energy which is incredible, right? We actually did the animal test with colorectal cancer. We transferred the cancer to the rats and then we gave different dosages. The first batch was just water and then we gave a little bit of SAC and then three times SAC. If you look at the graph of the three times SAC, 70% of tumors stopped growing or decreased in size by third week. And then we also gave SAC calcium to the athletic team, the swimmers from the Korea University team. They took two doses a day for 14 days and they did labs. And we wanted to see if SAC calcium really does neutralize lactic acid and we found that it did. And in fact all these swimmers, they did improve their swimming record. So let's look at some case studies. This is actually something that happened. It really amazed us. Of course, however you interpret this, but I'll leave that to you. We had a lady that's about 80 years old. She was diagnosed with multiple myeloma and then she did a chemo and then her kidney function was destroyed down to 10% with GFR-10. And then she went on the treatment in late 2013 to late 2014. So in about one year period of time, she experienced her blood works coming back to normal. And by the way, as of now, she's still alive and still very healthy and she enjoys taking SAC calcium maintenance doses. So let's look at her data. So everything looks very normal. And look at her T-score. You're talking about 80-year-old woman with severe osteoporosis. T-score minus 3.6. That's about 36% of her bone was empty. But then not only her cancer improved, but look at her bone density. Minus 0.9, back to normal level. And this is for 80-year-old woman. So what happened to her kidney function? From GFR-10 to 60. The damaged kidneys are recovered. We had other patients with chronic kidney disease like four states. She was, this lady was in the fifth state. But the four states recovering and then the kidney function improving. Remarkable. It's all because your stem cell is now turned on and going to work. Here's a 50-year-old male with adenoid cancer. He had a tumor that had about 3.5 cm. And he had a large part of his largest tumor removed surgically. But then he also had other smaller tumors, the mass here and there that was growing where the nerves and blood vessels were all intricately intertwined. The surgery could not be done. So he was recommended to take radiation therapy. But then knowing the side effects of radiation right on your face, that included losing the taste buds and all that. So he got kind of scared. And then he wanted to try SAC Calcium. Our strongest product is Marogen. He wanted to try that before he tries radiation. Then he was feeling that his body temperature was rising. And then he didn't get exhausted from the chores anymore. So he began to have hope. And then after taking Marogen about the fourth month he found out that all the traces of remaining cancer had disappeared. So he came all the way to where Dr. Lee was, who was the inventor of SAC, to really thank him personally. And this is the paper that just shows that he's fine. Here's another lady with surgical cancer. Prior to taking SAC Calcium, she had chemo and radiation and surgery that did not really help much. But then taking SAC Calcium for about a month, you can see how June 16th, that MRI mass looks smaller. And then August 3rd, her white blood cell count is back to normal. And then August 18th, the CT scan showed the mass is a lot smaller. And after doing a true cut biopsy in September, she's declared cancer-free. And these are the papers. And we have a lady with a four-state lymphoma, 72-year-old. She also had dementia and schizophrenia. But her symptoms improved a lot. She has taken SAC Calcium for about one year. And then you can see how she had this natural drainage. And then her dementia and even schizophrenia improved so much. Here's a leukemia patient with SAC. You see here within about one month, the data shows that she's doing much better. 72-year-old Asian male. And then here is an 18-year-old female. In about one month period of time, you can see the significant change in the blood number. And then there's another one, the 80-year-old male with leukemia. In about one month, you can see that there's huge improvement over the dermatological data here. And then here's an 81-year-old man with colorectal cancer, liver metastasis phase 4, taking MaraGen for about three to four months, I believe. And then the test shows that everything is normal. When this man first came to see the doctor, he could not even sit on a chair. But then when I met this man visiting the hospital, he was walking around and very strong. And then the doctor actually called me to kind of inquire about why his cancer marker is so high. Sometimes it looks unusually high. When the cells are going through a rapid apoptosis, our body has to clear all the substance away from our system. It takes some time. So when the tumors are responding rather quickly, then you could expect to see some rise of the tumor markers. And this coincided actually with the disappearance of the tumors. The scan shows the tumors are disappearing, but then the cancer marker is still high. So that's something to note. And here we do have some results that we get from breast cancer. This case was from Malaysia. And then the patient had actually 4.1 centimeter mass. And then she did go through a lumpectomy. And then when she was opened up, it just showed 1.2 centimeter. It was downstage to stage 1 from stage 3. Here's ovarian cyst with bleeding. The cyst disappeared and the menstrual cycle resumed to normal. And we did have some cases of pancreatic cancer where some fully recovered, increased the body temperature. That's because the mitochondria function is restored as the decalcification is taking place. And we have seen a lot of improvement for cancer patients. Now you can see, what about neurodegenerative diseases, including Alzheimer's and Parkinson's and ALS? We did see a lot of positive results. It used to be Alzheimer's disease was considered, just looking at the symptoms, it's a buildup of amyloid beta or top protein. So we focused more on how we can really eliminate the buildup of amyloid protein and top protein. But then now more and more future treatments is focusing on, based on the new research done, that it's actually all about bringing the calcium concentration back to normal in our brain cell. Incredible, right? Disruption of calcium homeostasis, it really causes that oxidative stress and it brings metabolic impairment. And that is actually the leading cause of ALS, Alzheimer's, Parkinson's, and other brain diseases. Let's look at this research. It says here, collectively, the available data show that perturbed cellular calcium homeostasis plays a prominent role in the pathogenesis of Alzheimer's disease. Suggesting potential benefits of preventive and therapeutic strategies that can stabilize cellular calcium homeostasis. Right there. And do you think this is just one research? It goes on and on. So many researchers are now coming together, all kind of agreeing, there's some consensus building up that all these things are happening because there is communication in our brain cells and our cells are not communicating properly and it's doing abhorrent things. Here's another research that shows. It says, because of these calcium ion signaling abnormalities, a balance in activities of calcium collagen-dependent kinase. So it tells the balance between the long-term potentiation and long-term depression. And this imbalance in synaptic mechanism actually weakens synapses and it's eliminated in Alzheimer's brain. Right there. So it says, targeting synaptic calcium signaling pathway offers opportunity for development of Alzheimer's disease therapeutic agents. So let's look at another research here. Effects of calcium homeostasis in neurons. Another research says the neurons are highly susceptible to changes in calcium ion concentration. Insufficient intracellular calcium ion content leads to abnormal functioning of neurons and excessive calcium ion levels cause cell death. Isn't it amazing, right? When actually these experiments are done in vitro that when the calcium levels are off that these neurons actually died off. So let's look at SAC defect on ALS and Parkinson's. I'm just going to go straight to the research. This is not our research, but you may find many of these if you go to PubMed. The role of calcium ion signaling in Parkinson's disease. Here it says because calcium ion signaling affects all aspects of neuronal cell biology, cells must tightly regulate calcium ion levels to avoid uncontrolled responses that could otherwise lead to pathological conditions and cell death. Again, again and again. All this research is saying the same thing. Our body has to tightly regulate calcium ion levels. But when the calcification happens and guess what? All this is really coming out from your bones. And it's calcium displacement in the wrong places. And our cells are doing crazy things. So here's another research linking calcium to pathogenesis of ALS. It says here that it has become obvious that the lack of understanding of the precise mechanisms of motor neuron degeneration presents a major obstacle in the development of effective therapies for ALS. Now altered calcium homeostasis and calcium signaling pathway activation. There's one potential mechanism that accounts for at least three major and interrelated toxic pathways. And the first one is oxidative stress, mitochondrial dysfunction and neuroinflammation in neurodegenerative disease. This is such as ALS. These three processes all happen because of calcification in cellular level. And our neurons and glial cells are especially sensitive to the altered calcium homeostasis in our brain. So here, these findings are in good agreement with a quantitative comparison of calcium ion homeostasis where low cytosolic calcium ion buffering capacity acts as an important risk factor for degeneration and in contrast an increase in cytosolic calcium ion buffering capacity could protect vulnerable motor neurons from degeneration both in vitro and in vivo. But guess what? A lot of these studies and I can go on and on and this is for multiple sclerosis. It's all, it's all going back to one condition which is disruptive calcium homeostasis in our brain. When this happens then it's really which one is hit first. You can be hit with Alzheimer's. You can be hit with multiple sclerosis. You can be hit with ALS and Parkinson's. You can see that as it shows heavy calcification in our brain and which part is affected first, you can get different diseases and more advanced days that's why multiple parts of your brain can be hit and then can show the symptoms of these diseases together. So in a way we knew the answer now. We know what's causing the problem but until now there was no way to restore disruptive calcium homeostasis in your brain. There's really no way. There was no way to reverse calcification suddenly. There was no way. But with SAC calcium now we can offer that hope. Every patient is different. Their calcification levels are different. We have actually seen some good results. Again this is just the individual clinical examples that we have experienced and then we are just presenting the studies that are done, the scientific studies that's done that in a way supports what we are experiencing in clinical settings. We had a lot of Alzheimer's patients with taking SAC, their early symptoms of Alzheimer's disappeared and many experienced this. There's one patient, I just could not know why he was falling he gets up and then he just veers to one side and falls with the CT scan of the brain and then the ENT doctor checked if there's anything wrong with his ears. I could not find anything wrong by taking SAC calcium and within two months all his symptoms just disappeared. And one amazing thing was that when I was in Manila one doctor actually gave me testimony of taking SAC. Initially he told about his mother the blood sugar level was so high but then after taking SAC it went down and then she had to adjust her medication. But then about three months later I had a chance to see him again in KL and then he was actually giving his testimony to other doctors as well who were gathered there that his mother had dementia for three years and could not remember anybody. But now she remembers everybody. Even she can recall what kind of food that she liked. So she being kind of a picky now complaining to caretakers reminding them that you know how I don't like this and you know how I like this kind of food and all that. So the caretakers are complaining but everybody in the family are happy. Hearing stories like this really encourages a 19 year old male in USA was diagnosed with early stage ALS and then after taking SAC early symptoms of ALS disappeared. And then recently I heard also from Dr. Wolf that one of his patients with ALS is improving significantly. Here a 65 year old male with late stage ALS was not able to go to the toilet by himself but now able to go by taking SAC calcium. We had patients who had swallowing difficulties because of the neck muscle weakness but now able to swallow food easily after taking SAC. We had 75 year old patient with Parkinson's and his tremors almost disappeared and all the other symptoms of his Parkinson's disappeared in relatively very short period of time. Again we cannot say this is for everybody. Everybody has different causes but then we know that as we grow older a lot of these are caused by the disruption of calcium homeostasis in our brain. If we can decalcify and restore the communication and restore the homeostasis then a lot of these neurodegenerative diseases, unless the damage done is advanced, if this is early stage then the symptoms can and we have seen a reversal. So let's go on on SAC's effect on diabetes. I can just go to American Diabetes Association website and this is what the website says. In recent decades insulin resistance and secretion have been shown to depend on calcium homeostasis. Once again this metabolic syndrome it happens because also it's affected by the imbalance of calcium in our system. And it says here that because both defect and insulin secretion and insulin action are related to type 2 diabetes it is expected that abnormal calcium homeostasis could play an important role in the development of type 2 diabetes. It's all related. So you know that when blood glucose rises and insulin rises but that insulin secretion is actually calcium dependent process. If you do not have the right concentration of calcium then you cannot secrete insulin properly. Here's one research, there's another research another research, it can go on and on and then here is what it's really saying. From this study it is hypothesized that alterations in calcium flux may adversely affect insulin secretion as it is a calcium dependent process. Another research says oral calcium ion supplementation improves insulin sensitivity in patients with type 2 diabetes and hypertension. And another research says we conclude that insulin is a potent immunomodulator and its signaling pathways are mediated by calcium concentration changes. Again, it's signaling. Our body needs to communicate and that communication is done by calcium ion signaling. That's why it says that the arrangements in the concentration of intracellular calcium ion may represent a link between the mechanisms of insulin resistance in diabetes. No wonder a lot of patients who are taking SAC calcium who are also diabetic experience in a relatively short period of time that their morning sugar number was way lower. We had patients who had average 250 to 340 in the morning then after three weeks experienced the number drop to 120 and actually she got off the medication that she's been taking. Actually this patient I do know that I met is actually she underwent lumpectomy and removed the cancer from her breast and then was recommended chemotherapy but then declined, wanted to wait and wanted to try Marazin and then of course she later on her cancer marker dropped to I guess way below and then no cancer detected and it's been years and still cancer free and guess what even now she's not taking medication for diabetes. Here's another patient, very persistent, 160 to 230 in the morning but now down to 118 to 160 and now even lower in relatively short period of time, I believe it was like two weeks. So let's look at what SAC can do for cardiovascular disease patients. We know that calcium plays an important role for heart to contract and then even the cells and the nerves to really work properly we need to have a good concentration of calcium ion. But guess what, most people have heavy calcification around the arteries and also the heart muscle as well. So when there's a reduced calcium entry into cardiac muscle cells, it decreases the myofilament calcium sensitivity and it could lead to heart failure. Again, I'm going to show this again how introducing calcium ion really changed the health of heart cells. Here's one important thing that I guess we all need to know about calcification. When we are starting to take out calcium from our bones it's not just taking out calcium, it's taking out phosphorus as well. And the concentration of phosphorus in the blood and calcium ion is correlated. If you multiply the concentration, it's greater than actually 60 milligrams per deciliter, then calcification happens. Think about it. Let's say you already have calcium, protein calcium in your blood but you have taken supplements. But then you're not utilizing well, your body still thinks you're calcium deficient so it's taking out from your bone, it's coming out with phosphorus and then the calcification factor just shoots up. That's why calcification happens everywhere. But then when SAC calcium is introduced from outside, it's not parathyroid hormone but thyroid hormone is activated, it starts the osteoblast, it takes the calcium back to your bone along with the phosphorus skipping the calcification factor so no more calcification is happening and then it goes further, it decalcifies. Of course it takes time for the heavy calcification in your system to dissolve. You have seen that x-ray picture before how the calcific tendonitis calcification just completely disappears. Here is a real case is an Iranian guy that I've met in 2016 but he was actually introduced to SAC calcium in 2011. He developed mitral valve prolapse heart condition. You know how calcium detox can also happen in your valves and your valves do not function properly. His cardiologist declared that he was dying. That his life stopwatch started and he was dying. He was lying on the bed, he could not even get up. Then in 2011 he tried some of the SAC calcium and he said he felt increased energy and three months after taking SAC calcium he said I began walking on my treadmill. Initially I walked for 15 minutes but after two months I began jogging. Five years afterwards I saw him, boy he was an energetic man and he was talking about how his sister also had severe rheumatoid arthritis in her hands but now she is able to live a normal life and how his son was very short and wanted to play for a basketball team. After taking SAC calcium he was really able to revive those growth spurts and now able to play in the school for the basketball team. He was very excited. He said SAC really changed his life. There is one important factor that I would like to mention is about the effect of osteocalcin. This is actually based on the award winning 20 year long research of Dr. Jericho Sentu. You can find his work online. He found out how that this very important hormone that is made in our bones has significant impact in many different parts of our body including brain and muscles and edible cells and testis and pancreas and there is Dr. Jericho Sentu he is the professor and the chair of the Department of Genetics and Development at Columbia University and then this is kind of a summation of his research. Instant synthesis in the pancreas is based on osteocalcin. Data cell proliferation is based on osteocalcin. Neurotransmitter production in the brain also has to do with the memory obtaining this osteocalcin. Insulin sensitivity in our cells, osteocalcin. And testosterone production insulin sensitivity in the edible cells. All of these are based on osteocalcin. You know because of his work our bones are now categorized as part of endocrine system. Guess what? Osteocalcin is actually produced in osteoblast cells. Now SAC calcium stimulates osteoblast and that's why we are able to build bones so strong in such a short period of time. When we did the animal test we found out that there is that alteration of osteocalcin production when we take SAC. That's why we're able to really experience the huge difference in the pancreas and brain and muscle and all because of osteocalcin production. So his research says how insulin secretion, glucose homeostasis testosterone secretion and I could go on and on I guess you can just read along looking at the screen but it's this amazing hormone that now we can regain by taking SAC. That's why also you get this energy when you take SAC calcium. This is the SAC how it changes the osteocalcin production when we did the animal test. And I'd like to also say something about SAC's effect on HIV and probably something that you have not expected but we were kind of quite surprised when we have given SAC to HIV patients. Their blood work showed almost negligible viral count and their blood work came out to be like normal. And you may wonder why so? Well you know what SAC calcium does now that it stimulates osteoblast and then it brings all that calcium back to our bone but also it takes phosphorous back to our bone and that's the reason why it's so important Now you know that phosphorous is building material for a pathogen. A pathogen is to multiply virus, bacteria, they need phosphorous to multiply. So if you're taking all the phosphorous back to your bone there's really none out there for virus to multiply significantly. So that's one way to prevent a pathogen proliferation in our body. And then we do know that when our body pH is at ideal 7.4 which SAC calcium or calcium ion does in our body, it's our body's natural physiology Again it's very important that we're not putting some man-made molecule in our body. We're just putting in calcium ion which our body desperately needs and it's doing its job. That's essential nutrient doing its job so when it maintains a body at 7.4 then pathogens cannot really multiply and calcium ion also binds to a certain place in RNA and it stops the multiplication So it's very important that we understand why these effects are taking place and I'm providing all the scientific background why we are experiencing what we are experiencing in our patients Too many people without knowing as they age, they experience hypercalcemia They are taking too much calcium, protein calcium the body still thinks you're calcium deficient because it needs ionic calcium and your activity and your hormones and conditions do not provide that ionic calcium so you're getting it from your bones and it leads to hypercalcemia that leads to cellular calcification and it causes actually inflammation. Hypercalcemia will cause inflammation and then when the inflammation persists, then it also draws calcium from our bones to be deposited all around that inflammation So it looks like cellular inflammation causes calcification and that calcification is really setting up more inflammation as well It's more like a downward spiral So we have to know that it's a calcium that's really causing all these problems The only way that we can really undo the damage done by calcification which happened actually through decades of time Sometimes over-exercising over-exerting your body because your muscles are going to be using calcium ions and it's taken out from your bones and then having that poor diet of putting that calcium back to our bones You may be very athletic and look like you may have some muscles and maybe your frame may look pretty good and all that, but then if you have not really watched your calcium intake and you have used up too much calcium from bones, then even though you may be young you may still have empty bones and then severe calcification. That's why some of the athletes have not really taken care of their calcium intake and calcium use in their body may end up with all these disorders as they age So types of calcification, you can see it happens everywhere. Small and larger arteries and heart valves. It could happen in the brain and we call it cranial calcification, joints and tendons and knees and rotator cuff and soft tissue, breast and the muscle, kidney, bladder, gallbladder and then you also find a lot of calcium deposits in the areas of cancer as well. Same reason because it causes inflammation and then inflammation draws calcium to go there to really seal off the area and it's really down the spiral. So imagine if you can really undo all this, which became possible by SAC Again, the effect of SAC will vary from person to person. It depends on the kind of lifestyle the person is living in. When calcium ion is used for everything in your body, let's say if you're smoking or you're living a very stressed lifestyle and then even if you may be taking SAC calcium you are probably going to be using a lot of it just to offset the damage that you're continuously inflicting on yourself So even with SAC calcium, we're recommending our patients to really change their diet, really change their emotion If you have unforgiving heart, forgive and try to not take things too seriously more than necessary. There are a lot of changes that need to take place emotionally, spiritually and physically so that we can be in the ideal state where healing can take place SAC calcium is not a magic bullet When it can do so much for our body, we definitely recommend patients change their diet so that patients can get a good source of calcium and all the other needed nutrients Stay away from the activities that makes your body more acidic, that leaches your body of calcium as well. When all of these are met, then you may be onto the road to recovery and we have seen so many people they're able to really see amazing recovery and even really changing how our immune system responds as well When our cells are regenerated and then all the wrong expressions of our cells do not infuse our immune response, we have seen so many autoimmune diseases also disappear as well We have seen rheumatoid arthritis, Crohn's disease, celiac disease eczema, multiple sclerosis SAC calcium by really restoring cellular communication and systemic communication really helped a lot of patients recover from autoimmune diseases including lupus Here, I just want to share one research. It says here that since present therapeutical approaches are only partially effective so far, this is talking about MS, multiple sclerosis ion channel modulation as a future strategy was brought into focus. Accordingly, increased electrical activity as well as augmented intracellular calcium ion level result in a dysfunction of mitochondria and neuronal cell death in the end. Thus, it seems reasonable to ask, does MS belong to the group of channelopathies? In other words, the research is still going on and seeing the link how calcium ion is related to the autoimmune disease. So, we want to bring that C level, extracellular calcium level, intracellular calcium level to normal. Well, I have so much to share. I want to share so much but then I guess you get the idea We have made a remarkable substance that introduces calcium in ionic form in our body. It turns on responses in our system, the pathway that we have never seen that brings about amazing recovery from all these diseases because of a decalcification happening in the cellular level that frees up our mitochondria, restores cellular signaling, and also reduces production of the epivaccine species that are so damaging. So, one case is an eczema patient. You can see she tried steroid cream and so many things that didn't work but it went away with SAC. If I can just dwell just a little bit on Lyme disease, of course you cannot So many people are suffering because of Lyme disease and if you have seen the Lyme disease the symptoms are all over the chart. That's why it's mistaken as other diseases but Lyme disease, if you look at it carefully and all these early and chronic symptoms of the disease, you can see a lot of that is related to calcium, the homeostasis disturbance. A lot of symptoms that are caused by calcium displacement, the calcification actually translates to the same, I guess, area of the Lyme disease. So, here's one research that shows that Lyme disease causes oxidative stress. We found out before that calcium, the homeostasis disturbance in the cell causes oxidative stress. Lyme disease also depletes intercellular calcium ion. Same, exactly when calcification happens in cellular level. And then this research says that Lyme disease causes mitochondrial dysfunction. Very similar to what happens because of calcium homeostasis disturbance in our cells. There's some process happening within the cell that's caused by this bacteria that causes a similar damage to the cell that's caused by calcium ion homeostasis disturbance. So here again, conclusion taken together, we hypothesize that these imbalances would cause oxidative stress, depolarization of the mitochondrial membrane, disruption of intercellular communication and release of pro-inflammatory cytokines. All of which could ultimately contribute to a condition of mitochondrial dysfunction and this is talking about Lyme disease. So, SAC calcium can definitely help patients with Lyme disease by restoring calcium homeostasis. It reduces oxidative stress, restores the function of mitochondria and then reduces inflammation caused by the Lyme disease. And by maintaining body pace of 7.4, SAC actually inhibits the proliferation of the bacteria responsible for Lyme disease and we're expecting a good result, right? And that's what we have. We have this one young boy, 11 year old and infected with Lyme disease. Experienced fatigue, fever, migraine, muscle aches. They used antibiotics and pain tools but did not really improve his symptoms but had taken Marzin three times a day and all the symptoms disappeared in about 40 days. Something like this goes on and on. But then when we actually did the oxidation reduction potential of SAC, we found that it's also very strong antioxidant, 2-3,000 times than our vitamin. And it's simply incredible. And you can actually find this book and it's sold in Amazon and also it is available to review in the falcoffdetox.com library, SAC for calcium signaling and it's going to explain with all the references how SAC works. We get tons and tons of good testimonies around the world and this is what really makes our life happy. We're so excited that we're able to help so many patients who had really no other hope. So we have different products. Algogen is a product that we use for patients with, you guessed it, Alzheimer's. And then the Megagen is our maintenance product. We want patients to go with stronger products and then once the symptoms disappear and then the disease seems to be reversing and it's in stable stage then switch over to more affordable Megagen to maintain it. Think about it. Our natural process is losing calcium from our bones. That's natural. But then taking Megagen you could actually slow it down or even reverse. Just taking Megagen faithfully every day you have seen even the bone density increase for most people. Tamaragen is a product that we use for joint diseases and joint conditions. And then Tamaragen is our strongest product. We definitely recommend patients. This is actually more bang for your buck. Just go strong in the beginning because there is really no negative side effect. You may be experiencing some healing crisis. Feeling like it's a little worse before it gets better. About 20% of the patients who are trying these products experience that. But then if that happens you can kind of slow down or take a break a little bit and then restart. And these healing reactions do not last that long. But then if you are okay, go strong with Tamaragen. Reverse the disease if it's something that can be reversed with SAC and then go on to the more affordable maintenance of those with Megagen. Osso Jr. is for kids. Definitely SSCalcium is great for kids to reach their full stature, full potential and also for their brain as well. It helps their concentration for ADHD. You know that all these are related to calcium deficiency. In Canada, 49% of the infants are born calcium deficient. 70% of them may recover after breastfeeding but still there are some 30% that do not recover and it's a really sad story afterwards. Dentigen is a product that we use for dental issues, gum issues and loose teeth. This is a product that you should go for and we do have all these toxicity tests. It's all very safe and for patients who are targeting very difficult disease like cancer or incurable diseases, again it's definitely good to try SAC and reverse the calcification that just cells be regenerated and mitochondrial function restored and make plenty of energy and reduce the production of reactive oxygen species and improve the self-communication and see what they can do for your disease. I recommend 4 times a day. 4 times a day. A good time to take this is early in the morning as soon as you wake up because you have to take this in an empty stomach. You got to mix with water. Definitely mix with water. If you do not mix with water, you cannot absorb it in ionic form. It has to be diluted. 1 to 100 ratio. So 5 ml into 500 ml of water and then when you drink it, within about 30 minutes it's going to be absorbed into your system in ionic form and then you can take some food. So if you take it about 30 minutes before meal, it's also a good time to take it if you are squeezing. Maybe 30 minutes before lunch and 30 minutes before dinner. Maybe 1 hour before you go to sleep is another good time to take so you can squeeze at least 4 times if you are tackling a really difficult disease. Now you can even take 5 times or 6 times but give about a 4 hour interval. It all depends where you are in regards to your health. So all the other conditions that are more manageable, you can go 2 or 3 times a day and then when the symptoms reverse, then you can go down to the more manageable once a day MegaGen protocol which is our maintenance dosage. So here's a sample recommended dosage for arthritis and osteoporosis. Again, if you can go stronger, then you will save time. Well, here it is. Thank you for tuning in and listening. It's been a long presentation but I'm trying to really give you as much detail as I could so that in the journey to healing that you can come alongside and give that boost. Thank you. Thank you so much, Jay. For those of you who have walked through the slideshow with Jay, I think you can see conclusively that I was correct in what I said is that this is the most devastating breakthrough in decades and I know it is. You can talk to any real medical doctor or any health practitioner and they're going to tell you the same thing that actually the impossible is not just possible, it's actually happened. Do your research. Go to PubMed. Take a look at all the studies that have been done by prestigious hospitals and schools and universities around the world just to validify what Jay's been saying. Also, on the note of personal health, it's about taking your health back and really making a difference. Go take a look at the Docker Detox Library and go to the Perfect Day Guide and you'll see where we don't just talk about product. We talk about the proper way to eat. Go to the Perfect Day Guide and look at from 7 a.m. to 7 p.m. the different things you can do internally, therapeutically. Also, look at the Ultimate Fasting Guide. When you do water fasting with the SAC Calcium and you utilize that with just three other products, I will tell you that you will unleash the production of stem cells and autophagy where it actually goes in and eats up disease cells and it actually creates younger, stronger cells. It's really where the fountain of youth is. The fountain of youth lies in being able to do stuff like intermittent fasting like the Perfect Day, the Ultimate Fasting Guide. Check that out, like I said. Then utilizing the SAC Calcium along with this. Check out the Ionic Calcium Guide on the library as well. Also, take a look at the Truth About Calcium video that Jay Lee and myself did because that gives you a different look at this. Understand something. Now we've put so much information out there that we are now going to do a Q&A on April 23rd at 3 p.m. Pacific Standard Time. You won't want to miss that. That's April 23rd at 3 p.m. Pacific Standard Time. You can also call in your questions at our phone number at 855-900-4544, extension 7 on the show. Or you can also text us or email us your questions beforehand and I'll read them out. Just to bring you up a little bit, I'll be doing my Braveheart show and it will be on May 7th and the show is called Incurable Stands for Limiting Beliefs. Again, that show on May 7th will be done at 3 p.m. Pacific Standard Time. Again, you can call in with all your questions. Challenge me. Challenge us on this. When you challenge us, you're challenging your subconscious which may have dysfunctional beliefs about health on an emotional or physical level. Then on May 9th, we're doing the Therapeutic Benefits of Light. Then I'm doing Blue Light and 5G Toxicity on May 15th which a lot of people have been waiting for. Then a Q&A on the 17th of May. I just want to thank my really good friend and colleague, Jay Lee, for taking the time to walk through this slideshow and I would like to thank Dr. Paul Lee for coming and inventing something that said could never be done. Did you get that? They said it could never be done. Also, when you go on PubMed and you take a look, you're going to find out that they talk about calcium more than any other nutrient and you're going to notice that they're all talking about the same thing. Only if somebody could invent a way to get the ions off the calcium and then into our system and to make it stable enough that it gets in our body but not too stable that it goes and does what it needs to do. Well, guess what? The future is here. The future of healthcare is here. Understand, when we talk about this product, we're talking about your body is the cure. This product just brings your body back to balance, brings it back to nature. So understand, when we're talking about diseases, we're not talking about curing diseases. We're talking about bringing back the balance of nature and harmony right down to the cellular level to awaken the mitochondria that awaken your energy, that awaken your greatest healing. Jay Lee, thank you for joining us and I want to thank all of you for taking the time and having the patience and knowing that guess what? You must not just take back the power to heal but you must stop giving it away. God bless and have a beautiful day. If you're looking for life-saving and life-changing information, you've come to the right place. Don't forget to click and subscribe. Stay connected. you