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www.dreambody.clinic (833) 445-9089 info@dreambodyclinic.net facebook.com/dreambodyclinic

www.dreambody.clinic (833) 445-9089 info@dreambodyclinic.net facebook.com/dreambodyclinic

#rejuvenation #stemcells

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www.dreambody.clinic (833) 445-9089 info@dreambodyclinic.net facebook.com/dreambodyclinic Dave's Stem Cell Back Repair Testimonial for Ankylosing Spondylitis Treatment at Dream Body Clinic Mesenchymal stem cells (MSCs) are great in the treatment of ankylosing spondylitis (AS). ankylosing spondylitis is a chronic inflammatory condition that primarily affects the spine and sacroiliac joints, leading to pain, stiffness, and reduced mobility. MSCs are a type of adult stem cell that can guide regeneration of various cell types, including bone, cartilage, and immune cells. They also possess immunomodulatory and anti-inflammatory properties, which makes them attractive for treating autoimmune diseases like ankylosing spondylitis. Several studies and clinical trials have explored the use of MSCs in ankylosing spondylitis treatment. These studies suggest that MSCs may help suppress the overactive immune response and control the inflammation associated with ankylosing spondylitis. Additionally, MSCs may contribute to tissue repair and regeneration, potentially aiding in the healing of damaged joints. Mesenchymal stem cells (MSCs) have been studied for their potential therapeutic effects in ankylosing spondylitis (AS). While further research is needed to fully understand their mechanisms of action, here are some of the ways MSCs may help in the treatment of ankylosing spondylitis: Immunomodulation: MSCs possess immunomodulatory properties, meaning they can regulate the immune response. In AS, the immune system mistakenly attacks the body's own tissues, causing inflammation. MSCs may help suppress this overactive immune response and reduce inflammation, potentially alleviating the symptoms of AS. Anti-inflammatory effects: MSCs can secrete various anti-inflammatory molecules, such as cytokines and growth factors. These molecules can help inhibit the production of pro-inflammatory substances, modulate immune cell activity, and reduce inflammation within the affected joints in AS. Tissue repair and regeneration: MSCs have the ability to guide regeneration of various cell types, including bone and cartilage cells. In AS, where joint damage and bone formation occur, MSCs may contribute to tissue repair and regeneration, aiding in the healing process of damaged joints. Pain relief: ankylosing spondylitis often leads to chronic pain and stiffness. MSC therapy may help reduce pain by suppressing inflammation, promoting tissue repair and regeneration, and possibly modulating pain signaling pathways. Cartilage protection: MSCs have shown potential in protecting cartilage from further damage. They may promote the secretion of molecules that support cartilage health and inhibit the production of substances that contribute to cartilage breakdown. Mesenchymal stem cells are a great way to treat ankylosing spondylitis

www.dreambody.clinic (833) 445-9089 info@dreambodyclinic.net facebook.com/dreambodyclinic Hi, this is Josh with dream body clinic. Today, we're going to talk about what is a stem cell and which ones are our best for treatments. So there's a few different types of stem cells, and this is where things get very confusing for a lot of people. There are embryonic stem cells. There are hematopoietic stem cells, and there are mesenchymal stem cells. These are the primary ones available today for treatments. So embryonic stem cells, we'll start with, these are probably the most famous and what people usually think of when they think of a stem cell. An embryonic stem cell can become any type of tissue. So it almost sounds magical. Like if you get them right, you put them into the right place. Like say your heart, they'll create new heart cells and you're healed. But unfortunately that's not how they end up. Working. So embryonic stem cells are taking from tissues like aborted [00:01:00] fetuses or aborted babies. And the thinking was that since they can turn into any type of cell, because this baby is growing and all those cells start with the embryonic stem cells, they can make it work. Um, this was a big controversy when Bush was in office in the United States. And what they did is he didn't ban stem cells. He just banned the funding of that kind of research. His advisors told him they didn't think it would work. Well, it turns out they were right. The state of California ended up spending 2 billion on research and found out that it did not work. Embryonic stem cells. Typically want to become a baby. So they typically become tumors or cancer in patients. And that kind of was the end of the road for that type of stem cell. There's a few clinics out there claiming that they're doing embryonic, you know, stem cells, but if you look deeper into it, it looks like they're actually just taking tissue from that initial embryo and then creating basically mesenchymal stem cells, because again, you don't want. [00:02:00] The HLA markers from another person, HLA is human leukocyte antigen and embryonic stem cells would have that, those markers. It would be trying to make tissue for that person that it was going to become. So that's another problem there. So Embryonic don't work. The few clinics that claim to have it are clearly using mesenchymal cells, but using a pretty unethical source for at least unethical for most people. I mean, that's for each person's moral decision to decide, but that's that the next are what are called hematopoietic stem cells. So going back in time, these are probably the most used stem cells out there for actual medical treatments. And that is because they are highly effective. In bloodborne cancers, and this is because hematopoietic stem cells, the main job is to create new red and white blood cells. So that's really good for these bloodborne cancers, sort of like, uh, leukemia. Now, the thing is though, [00:03:00] they're not so good for joint treatments. You know, you don't want to do your knees or shoulders or back or anything with a hematopoietic stem cell because red and white blood cells, well, white blood cells, at least can only heal via fibrosis. Red blood cells actually cause inflammation. Like when they do PRP, you have to be sure not to take the red blood cells or you're going to create inflammation. So neither of these are good for healing tissue. Scar tissue is the big problem that prevents most of us from healing the way we should. So putting more white blood cells in the area, it's a bad idea. And then you have the fact that like these cells hematopoietic stem cells actually transfer DNA. So what they found in forensic investigators have found this fascinating, but, um, you know, if, if a person had a bone marrow transfer from say like their sister, because they had leukemia, they would then take on the DNA of their sister or whoever that donor was. And after like a few months, if they went and [00:04:00] committed a crime and there was DNA left, they would actually show up as the donor. So that's where a lot of the fears of DNA transfer come from is from hematopoietic stem cells. And then that gets us to the third type of stem cell mesenchymal stem cells. And that's what we use here at dream body clinic. These don't have HLA markers, human leukocyte antigens. So they don't have the marker from the donor. So we can take them from anyone and they're called immune privilege. The immune system just leaves them alone because there's no HLA markers to tell them to attack it. They also don't transfer DNA because the way they work is not by becoming different tissues. They work via what's called the paracrine effect. And the paracrine effect means they send out signals. They're like the manager on the construction site, barking orders, telling everyone where to go, what to do. www.dreambody.clinic .

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www.dreambody.clinic (833) 445-9089 info@dreambodyclinic.net facebook.com/dreambodyclinic Hypoxic Stem Cells - New Tech or Clever Marketing? ] Hi, this is Josh with dream body clinic. And today we're gonna be talking a bit about hypoxic stem cells. This has been a term that it's become popular lately. I've been hearing a lot on YouTube and other places, and I want to explain what it is because it sounds really cool, really catchy, like it's something new, but it's really not. So a hypoxic stem cell in regards to mesenchymal stem cells like we use and other clinics like us is hypoxic simply means a low oxygen environment. So typically what this means is that that lab is using a bioreactor and a bioreactor. I'll try to get a [00:01:00] video up here. If I can find some images and whatnot, but a bioreactor is a great way to cultivate mesenchymal stem cells. It is self contained. It has the culturing medium in it in large quantities. It keeps the temperature perfect, and you're able to do a culture of stem cells that way with very large batches. Which is pretty cool, but there's some drawbacks to that that they don't tell you about. So when you use a bioreactor, and the reason we don't use one, we prefer to use incubators, is because the bioreactor creates very large, large cultivations. You're using a lot of culturing medium. You get huge numbers of stem cells. And when you do that, they all have to come out at the same time. So it's most likely most clinics aren't going to have, you know, like a thousand patients for one day. It just doesn't make sense, right? You couldn't even treat that many people. So what they have to do then is cryogenically freeze [00:02:00] those cells to be used for later. Now there's some good and bad about frozen cells. Most research facilities. Use frozen mesenchymal stem cells. But the thing is you have to thaw them properly. There are special devices, these baths that you have to have ice baths to slowly thaw the cells, because if they. Thaw too fast, you actually kill up to half or more of the stem cells in that batch. So we prefer to just avoid that completely and not use frozen stem cells. We don't want to run that risk of having dead cells. And when you cryogenically freeze the cells. Typically have to add DMSO and DMSO will raise the freezing temperature so that you're able to freeze them faster and lower die off during the freezing process because they can die from that too. Like when you throw a Coca Cola in the freezer, you know, it can explode. You've seen it like imagine a cell that is like mostly water [00:03:00] in the membrane. It can expand too far and explode. So. They have to do these things and DMSO in like an IV is great. We actually add DMSO to our IVs beforehand to open the blood brain barrier for about 20 minutes. But when you're injecting that into a joint, it almost always causes inflammation. So that's a big issue with. Frozen mesenchymal stem cells, like they're using in the U S with umbilical cord tissue and with labs that are using a bioreactor for their hypoxic stem cells. And technically all cells are grown in a hypoxic environment because it's in a culturing medium. It is a liquid. It is not full of oxygen. So they try to make it sound like, Oh, this is some better way to do it, but it's actually the normal way, because even with an incubator, like we use, it's more like baking. You know, if you go to that really great French bakery every day, they got fresh croissants, fresh baguettes. These are the things you want. You know, you [00:04:00] want them fresh. You don't want them stale a day or two old. So that's what we do with the stem cells. We cultivate them. We get them into patients within 24 hours of cultivation. So they can have the freshest, best stem cells that were never frozen. So that's what we do with that. That's why we don't use a bioreactor and we easily could. It just doesn't make sense because we want to give the best quality stem cells. We can never frozen. We want to replicate them because that's where you get the best quality. Imagine they're growing up in this garden of Eden. They have every nutrient they need. They have the perfect temperature in the incubator. They are just ready to replicate. And then when they get in you, they're ready to work. And these, like I like to always say, they're like the managers on the construction site, they seek out the inflammation and they guide the repair process. So it back to that hypoxic environment, low oxygen environment in this bioreactor, because we can see it.

www.dreambody.clinic (833) 445-9089 info@dreambodyclinic.net facebook.com/dreambodyclinic Hello, this is Josh dream body clinic. And today we're going to get into some details about the central stem cells, what they are, and from there. So a big starting point for stem cells is confusion. Let's see, what is the stem cell, right? So there's three different primary types of stem cells that most people know about. I've heard about, there's embryonic stem cells. Now, these are the stem cells that come from aborted fetuses, aborted embryos. They're the ones that like have the most contribution. They also have the most potential because an embryonic stem cell, the hope was since they can turn into any cell type in the body, you have about 260 different types of cells in the body that you can use those. And then turn them into the cells needed for specific areas, like say, if your heart was failing, the hope was they could turn into heart cells, or if your kidneys were failing, they could turn into kidney cells. Unfortunately, it was found that the state of California ended up spending about 2 million in research and basically came up with that it did not work as expected. You know, there was a lot of controversy back when Bush was in office about this. He never banned stem cells, even though people think that. You just, as advisors told me, I didn't think it would work and they shouldn't fund it. And that ended up being actually a reality. So those aren't usable. We do not use those. We don't want those. Plus they tend to become tumors because they want to become babies. So not a good option. There are a few clinics out there saying that they're using embryonic stem cells, but it appears that they're actually using, it's more of like a derivative, like an encyclical stem cell from that cell line. Which is why they're usable and don't have issues. So embryonic stem cells, you don't want, then there's somatic polyethic stem cells. These are the stem cells and bone marrow. They [00:02:00] create retinal blood cells. Um, that's also not really great for type of treatments. We not good for our tissues, not good for joints because white blood cells can only heal in fibrosis, which is scar tissue. And we don't want that, uh, scar tissue ends up being like a patch up job. And then your regular healing mechanisms, like the growth factors and cytokines and such in the bloodstream can't get past that and they can't heal the tissue. So you end up with more of a problem, temporary fix might not get worse, but it's not going to get fully healed either. Um, those are really only used in blood borne cancers. In fact, that's a history of them. The first step. So there were out there were bone marrow, uh, transfers for patients with things like leukemia, and they work really well for that. But the problem is the, the donor receives that DNA from, or [00:03:00] the recipient receives the DNA from the donor. And in fact, it's really crazy. Investigators have found it. The recipient actually takes on the DNA of the donor and over time, if they commit a crime, they will actually show up if there was any evidence as the donor, really crazy stuff. But, um, you know, that's why a lot of people get confused. I think, Oh, is DNA transferred in stem cell therapies? Yes. With, uh, this hematopoietic. Yes. With central stem cells, which we're into now and we use, there is no DNA transfer. So the third type of central stem cells exist in your system already. They live on your capillaries. They're called pericytes. Look like a little octopus wrapped around a tube, but it's the capillary. And when you're injured, they come off, they go to the inflamed injured area, and they guide the repair. So they're not really a stem cell in the body. In the lab, they are. In the lab was Dr. Arnold Kaplan of the early 90s found. It can turn them into adipocytes, chondrocytes, um, osteoblasts and chondrocytes. And those are great, but they then have the donor's HLA markers. So if you use my own, you can use them, but if they're coming from a donor, um, you can't because the HLA markers don't match. So there's a lot of people out there talking about chondrocytes right now and fixing cartilage. Unless they're getting it from the donor. It's not a viable option to be eliminated. So the same couple of stem cells go through the system and they work via the Peregrine effect. This means the signals they send out. That's what does the magic. Think of it like an orchestra. You've got a conductor telling you where to go, what to do in time. That's what the second most stem cell does. It is like the manager on the construction site. It's going. And building the house, but telling everyone what to do to build it. It's not building itself. It's like the contract. [00:05:00] So it's where it gets confusing. Dr. Kaplan wishes he could rename them medicinal signaling cells

www.dreambody.clinic (833) 445-9089 info@dreambodyclinic.net facebook.com/dreambodyclinic Sandra had the 100 million stem cell IV treatment at Dream Body Clinic and the 20 Million Stem Cell Facial Treatment. She came because her husband had researched stem cell treatments a lot and decided on Dream Body Clinic to heal his back pain. Sandra came with him and felt so comfortable with our staff that she decided to try stem cell treatment also. It turns out that it was a great thing she did because she was able to get off all of her asthma medications a few months after treatment! She has also recieved numerous compliments on her skin tone since doing the stem cell facial treatment too. She wanted to share her great experience at dream body clinic with everyone out there so we did this video. Hopefully it is a part of helping you understand the amazing regenerative powers of mesenchymal stem cells available at dream body clinic in Puerto Vallarta, Mexico. We are always happy to help and offer free consultations to anyone. Call Today!

www.dreambody.clinic (833) 445-9089 info@dreambodyclinic.net facebook.com/dreambodyclinic We have been offering a Legal Fly & Buy Program for Human Growth Hormone (HGH) for 10 years now. Unfortunately things in the USA have changed. The law has not changed, but the customs agents and TSA officials are no longer respecting the law. It is still legal to seek medical treatment abroad and return home to the USA with up to 50 dose units of medication or anywhere else in the world like the UK or Canada with up to a 90 day supply. Unfortunately the officials at the airports are trying to confiscate medications like HGH and TRT illegally and there is nothing we can do. So we can no longer guarantee our fly and buy program for HGH or any other medication. It is still legal for you to come and get the meds and fly home, but if it is confiscated we can no longer guarantee your successful return with the medications. We really hate this, but if the officials refuse to follow the law then there is nothing we can do. You can do the program and have a lawyer on standby, but we can no longer be part of that process. Thank you for understanding.

www.dreambody.clinic (833) 445-9089 info@dreambodyclinic.net facebook.com/dreambodyclinic

www.dreambody.clinic (833) 445-9089 info@dreambodyclinic.net facebook.com/dreambodyclinic