How Stem Cell therapy can help you
Pluripotent Stem Cell Therapy is the future of Regenerative Medicine. A Pluripotent Stem Cell has the potential to divide and differentiate into any of the 220 plus cell-types of the human body. Stem Cell Therapy will enable the body to start healing itself within 30 minutes of their delivery and can continue healing up to 10 days after the treatment. When Stem Cells entre via the bloodstream, they seek out areas of inflammation and start the process of repairing that area. Over a period of time and a number of treatments the body is slowly brought back to Homeostasis.
Pluripotent Stem Cells are hugely beneficial and have been shown to be 6-10 times more effective than the normal adult, mesenchymal, autologous and/or umbilical cord stem cell treatments offered by other treatment providers. The reason is both the structure of the Stem Cells and in particular the type and amount of Cells that we are able to provide per treatment to our patients and the fact that all of our Stem Cells are freshly produced and never frozen. During a single session, we administer a minimum of 20 million Pluripotent Stem Cells to our Patients resulting in better healing, faster recovery and an overall improvement of the patient’s situation.
At Poseidonia Healthcare we provide world-leading Pluripotent, Stem Cell Treatments.
We are deeply committed to maintaining an ethical, professional and caring approach towards our patients and each other.
Pluripotent, Stem Cell are hugely beneficial and have been shown to be 6-10 times more effective than the normal adult, autologous and/or umbilical cord treatments offered by other treatment providers. The reason is both the structure of the Stem Cells and in particular the type and amount of Cells that we are able to provide per treatment to our patients and the fact that all of our Stem Cells are freshly produced and never frozen.
During a single session, we administer a minimum of 20 million Pluripotent, Stem Cell to our Patients resulting in better healing, faster recovery and an overall improvement of the patient’s situation.
Stem Cell Treatments Available
Lyme disease, also known as Lyme borreliosis, is an infectious disease caused by the Borrelia bacterium which is spread by ticks. The most common sign of infection is an expanding area of redness on the skin, known as erythema migrans, that appears at the site of the tick bite about a week after it occurred.
Chronic obstructive pulmonary disease (COPD) is a chronic lung disease that gets worse over time, having COPD makes it hard to breathe. There are two main forms of COPD: Chronic bronchitis, which involves a long-term cough with mucus. Emphysema, which involves damage to the lungs over time.
Diabetes is a disease that occurs when your blood glucose, also called blood sugar, is too high. Blood glucose is your main source of energy and comes from the food you eat. Insulin, a hormone made by the pancreas, helps glucose from food get into your cells to be used for energy.
Alzheimer’s disease although the mechanisms involved in the pathogenesis of Alzheimer’s Disease (AD) have not been completely characterised, inflammation within the central nervous system is now thought to play a key role in the development of the plaque associated with brain cell death.
Recent publications have shown that Spirochetes, the bacterias involved in Lyme disease, were found in 90% of the people who suffer from AD. Other research groups showed that bacteria involved in periodontitis were also linked to the development of the disease. All these concurrent results on the role of brain infection and inflammation in the development of AD show the importance of restoring a strong and balanced immune system in order to stop the progress of the disease.
Pluripotent Stem Cells, (PSC), have a direct effect on the immune system which appears more regulated within days of commencing Stem Cell Therapy. PSCs are able to successfully alleviate most chronic inflammations such as arthritis and Crohn’s disease and as such represent the best defence against the development of Alzheimer’s Disease, especially in the early stages.
The second benefit of PSC for patients who suffer from AD is the repair of lost brain function.
While it has been long thought that lost neurons cannot be recovered, recent studies have shown that it is possible to regrow neurons and neuronal connections. This is especially true of PSC which have been shown to trigger regrowth following severe brain injuries and similar results in the case of AD.
Results vary depending on the stage of the disease but most AD patients have seen improvements following only 3 injections of 20 million PSC. Injections through lumbar puncture are also recommended.
A Stroke is a sudden interruption in the blood supply of the brain. Most Strokes are caused by an abrupt blockage of arteries leading to the brain (Ischemic Stroke). Other Strokes are caused by bleeding into brain tissue when a blood vessel bursts (Hemorrhagic Stroke).
The cause of Cerebral Palsy is a brain injury or brain malformation that occurs while the brain is developing before, during, or after birth. As a result of the brain damage during brain development a child’s muscle control, muscle coordination, muscle tone, reflex, posture and balance can be affected.
Pulmonary fibrosis is a chronic and progressive lung disease where the air sacs in the lungs, called the alveoli, become scarred and stiff, making it difficult to breathe and get enough oxygen into the bloodstream.
Heart disease also known as Cardiovascular diseases describes a range of conditions that affect your heart. Diseases under the heart disease umbrella include blood vessel diseases, such as coronary artery disease; heart rhythm problems (arrhythmias); and heart defects you’re born with (congenital heart defects), among others.
Everybody now has a good understanding of the numerous factors that come with ageing. Our diet, the amount of sugar we eat, the quality of our water intake, our drug exposure, our emotional balance and all the choices we make every day affect the way we age. By choosing to have a more balanced diet with less sugar and more vegetables, cleaner water and air, moderate sun exposure, regular meditations and exercising, we can definitely slow ageing. But all we want is more, we want to reverse ageing and this is what Pluripotent Stem Cells, PSC, can do.
In the more than five years of Stem Cells treatment practice, most of the Stemaid patients who received PSC to treat a specific ailment, noticed interesting side- effects after a few injections. Some had thicker hair and improved skin. Some women were not post-menopausal anymore. Men commented on having increased libido and all stated feeling a renewed energy. We then decided to study the anti-ageing effect of PSC on individuals who had no major illnesses, all aged between 50 and 70. Prior to the study, they all went through a cleanse protocol in order to remove as many toxins as possible so that the PSC doesn’t have to help the body to detoxify but can help the body to repair right from the start. PSC was administered once a month. The participants were not asked to change their diet or exercising habits.
Several hormonal markers were measured during the study as well as their leucocyte telomere length. The telomere is the DNA-protein complex on the end of our chromosomes that are described as one of the best biological markers of ageing. The shorter they are, the less responsive our cells become and the more we age. All the 15 patients who enrolled in the study described a marked improvement in their energy level. The blood tests showed an increase of testosterone and estrogen for a majority of them and within the last 6 months of the study which lasted one year, they all had their telomere length increase by an average of 14%. This clearly showed that independently of the biological age they had at the beginning of the study, they all had a reversing of their age at the DNA level.
More studies are underway about which we will report regularly. (See testimonials related to the anti-ageing effect of PSC here ). For more information regarding the Telomere length and the increasing risks or age-related diseases and mortality, see the following articles: Telomere Lengths Predict Life Expectancy in the Wild, Research Shows Ageing: Telomere length is inversely correlated with risk of dementia and mortality
Whether the injury is recent or has occurred several years ago, stem cell transplants will gradually restore the functions that have been lost after the injury.
It has long been thought that damaged neurons cannot be replaced. Recent studies showed that our brain has a special area that produces neural stem cells which are in charge of replacing these damaged mature neurons. At the time of the injury, these neural stem cells are produced to stop the bleeding and trigger the repair but their production is quickly stopped once the repair is started and the recovery is rarely completed by these host stem cells.
By providing Pluripotent Stem Cells to the patients, the brain repair mechanism starts over again. Some believe that the external stem cells produce specific growth factors that enhance the production of the host’s neural stem cells. Scientists from USF in Florida recently showed that the transplanted stem cells create a bio-bridge that links the neural stem cell niche to the area of injury.
Whichever mechanism is involved, what we observed is an incremental recovery of the brain functions leading to a recovery of the lost body functions.
The best results are observed after 3 injections of Pluripotent stem cells given every 7 to 10 days. After 2 months, depending on the progress, another course of 3 injections may be recommended.
Multiple sclerosis (MS) is a progressive, immune-mediated disorder. That means the system designed to keep your body healthy mistakenly attacks parts of your body that are vital to everyday function. The protective coverings of nerve cells are damaged, which leads to diminished function in the brain and spinal cord.
Of the many patients who have received stem cell therapy, a large number had been taking opioids in order to cope with the debilitating pain associated with chronic conditions such as Lyme or arthritis.
It came as a surprise to learn that some of these patients had, of their own volition, managed to lower their opioid intake during the course of their stem cell therapy treatment and without the discomfort normally associated with doing so.
With research and development into the stem cell treatments and therapies, this field of medical treatment is ever evolving. With the wide range of diseases, conditions and illnesses that Stem Cell therapies treat, it is believed that Stem Cell therapy will soon surpass modern medicine.
Pluripotent Stem Cell Therapy consists of Stem Cells that have the capacity to self-renew, literally dividing and developing into the 3 Primary Germ Cell Layers of the early embryo and therefore transforming into all 220 cell types within the adult body, this effectively means that Pluripotent Stem Cells provide UNPRECEDENTED opportunities for Cell Therapy against intractable diseases and injuries opportunities for Cell Therapy to assist the body in the healing and regeneration of its existing cells.
Producing Pluripotent Stem Cells
A blastocyst is an early-stage embryo (5 days old) of 100-200 cells which are barely visible to the naked eye. At this stage, the cells are not yet predetermined, i.e., there’s not a single blood cell, muscle cell, bone cell etc.
From the “inner cell mass” of the blastocyst, pluripotent stem cells are obtained and then cultured. Additional blastocysts are only required when a new line is created.
Stem Cell Therapy
What are Stem Cells?
Stem cells have the remarkable potential to develop into many different cell types in the body during early life and growth. In addition, in many tissues they serve as a sort of internal repair system, dividing essentially without limit to replenish other cells as long as the person is still alive. When a stem cell divides, each new cell has the potential either to remain a stem cell or become another type of cell with a more specialised function, such as a muscle cell, a red blood cell, or a brain cell.
Stem cells are distinguished from other cell types by two important characteristics. First, they are un-specialised cells capable of renewing themselves through cell division, sometimes after long periods of inactivity. Second, under certain physiologic or experimental conditions, they can be induced to become tissue- or organ-specific cells with special functions. In some organs, such as the gut and bone marrow, stem cells regularly divide to repair and replace worn out or damaged tissues. In other organs, however, such as the pancreas and the heart, stem cells only divide under special conditions.
Until recently, scientists primarily worked with two kinds of stem cells from animals and humans: embryonic stem cells and non-embryonic “somatic” or “adult” stem cells. The functions and characteristics of these cells will be explained here. Scientists discovered ways to derive embryonic stem cells from early mouse embryos more than 30 years ago, in 1981. The detailed study of the biology of mouse stem cells led to the discovery, in 1998, of a method to derive stem cells from human embryos and grow the cells in the laboratory. These cells are called human embryonic stem cells. The embryos used in these studies were created for reproductive purposes through in vitro fertilization procedures.
When they were no longer needed for that purpose, they were donated for research with the informed consent of the donor. In 2006, researchers made another breakthrough by identifying conditions that would allow some specialised adult cells to be “reprogrammed” genetically to assume a pluripotent, stem cell state. This new type of stem cell called induced pluripotent stem cells (IPSCs).
Stem cells are important for living organisms for many reasons. In the 3- to 5-day-old embryo, called a blastocyst, the inner cells give rise to the entire body of the organism, including all of the many specialised cell types and organs such as the heart, lungs, skin, sperm, eggs and other tissues. In some adult tissues, such as bone marrow, muscle and brain, discrete populations of adult stem cells generate replacements for cells that are lost through normal wear and tear, injury, or disease.
Given their unique regenerative abilities, stem cells offer new potentials for treating diseases such as diabetes and heart disease.
Umbilical Cord Stem Cells
These are adult cells, which are sometimes referred to as mesenchymal cells and are collected from the umbilical cord at birth. They are predetermined for certain functions. In the case of mesenchymal cells, their “mission” or genetically determined function is to repair skin, conjunctive tissues, muscle and tendon damage.
Adipose Tissue Stem Cells
Like umbilical cord stem cells, these are also mesenchymal stem cells. As they are harvested from the patient’s body fat, they carry its DNA and therefore will not be rejected. In contrast, umbilical cord cells are rejected after a few hours. Although adipose tissue stem cells are more efficient than umbilical cord stem cells, they share similar limitations.
In fact, they are limited to their predetermined application, which is mainly in healing skin, tendons, and conjunctive tissues. It is important to note that once harvested via liposuction, the amount of mesenchymal cells available in the future from fat will be reduced. In addition, these stem cells are the same age as your other cells.
All adult stem cells age at the same pace as their host. Thus, adipose stem cells will not help with in-depth rejuvenation of the body. They will only repair the wears and tears of conjunctive tissues, as their predetermined function allows.
Hematopoietic Stem Cells
These cells, harvested from patients’ bone marrow are predetermined to help with all blood related issues, including blood vessels and the immune system. Thus, they may facilitate healing of blood-related conditions.
Fetal Stem Cells
These cells are extracted from a 6 week-old aborted fetus. They carry a variety of adult stem cells. From our research, several cases have been reported in which patients had developed tumors after spinal treatment with fetal stem cells.
Induced Pluripotent Stem Cells (IPSC)
Induced Pluripotent Stem Cells are prepared by introducing foreign genes into adult cells. These cells behave like embryonic stem cells and are theoretically able to stimulate repair in the entire body. However, they are not considered fully embryonic due to their foreign genes and this limits their range of application.
Pluripotent Stem Cells
Pluripotent stem cells are derived from a blastocyst (either donated or cloned from a skin-cell), which is an early-stage embryo (5 days old) of 100-200 cells that are barely visible to the naked eye. At this stage, these cells are not yet predetermined or specialised in any way, so there are no organs or blood even, just an “inner cell mass” from which embryonic stem cells can be obtained.
Unlike adult cells, which are limited to differentiating into different cell types of their tissue of origin, Pluripotent can express the DNA of all cell-types of the body. When introduced into the bloodstream, these pluripotent cells operate by way of signalling and within minutes their molecules (microRNAs) signal every organ of the body to rejuvenate and repair. For example, the brain will start to release neural stem cells, which are the cells that can repair the brain, the heart will release cardiac cells, the lungs, pulmonary cells, and the skin, mesenchymal cells and so on.
The wide range of application of pluripotent stem cells is what makes them so well suited to treating numerous conditions. Once signalling has taken place, the body naturally eliminates the Stem Cell within 72 hours, while the newly created cells in the various parts of the body continue to do their repair work for up to 3 months. Unlike the other cell types mentioned above, pluripotent stem cells also have the added advantage of producing a protein which has anti-tumour properties.
Pluripotent stem cells are the only type of stem cells that Poseidonia Healthcare offers.
Stem Cells Frequently Asked Questions
Can you tell me what Stem Cells PureStem offer?
We provide Pluripotent stem cells as these are most potent, the most adaptable, the most strongest and the most efficient type of Stem Cell available to us as we speak and they offer the best chance for healing and the promoting of any cell regeneration within the body.
How do Poseidonia Healthcare's stem-cells differ from those offered by other providers?
Poseidonia Healthcare uses only pluripotent stem cells.
PureStem works with doctors to ensure that stem-cells are counted prior to application.
How long would I need to visit Cyprus for completed treatment?
PureStem Pluripotent Stem Cell Therapy can be concluded within a very short period of time, we currently have 1 week or 2 week Packages for some more serious conditions. The Scientific Advisors and our Professor and Medical Team would advise what is the best duration after a full consultation learning about your specific case.
I would like my Doctor to discuss any potential treatment with your Medical Team, is that possible?
Of course, our Medical Team and Staff would be happy to discuss all aspects of your treatment protocol with anyone you give us clearance to speak to but only once they have received the Medical Screening Form.
What do I need to do next to start the process?
Use the contact us page and we will send you the Medical Screening Questionnaire-MSQ and once we have received and analysed your situation rest assured that one of our Specialist Medical Team will be in contact with you further.
I would like to know more about PureStem Treatments
Over the years our Pluripotent Stem Cell treatments have been administered to many, many patients. We have not only helped prolong life and improve quality of life to thousands of patients; including those suffering from incurable diseases, but we have also restored and normalised many into a healthy lifestyle and some of these people had lost any hope for recovery until they underwent our Treatment Protocols.
A Pluripotent Stem Cell is an undifferentiated cell that has the potential to divide and differentiate into any of the 220 cell-types of the human body.
Stem Cell Therapy (SCT), is the utilization of these cells in order to assist the body in the healing and regeneration of its existing cells.
Depending on the conditions, pluripotent stem cells can be delivered through the bloodstream or directly to the organ that is in need of treatment.
Within 30 minutes of their delivery, the body starts to repair its damaged organs and the healing process can be observed up to 10 days after the injection. Several injections might be needed depending on the severity of the conditions and the expected results.
Why Use Pluripotent Stem Cell?
6-10 times more potent than adult or umbilical-cord stem cells in helping the body to heal.
Safe and effective.
Accelerates healing in the body within 30 minutes of injection.
Lengthen the telomeres of our DNA.
Contain the Nanog gene, known for its anti ageing benefits.
Express MicroRNAs that aid in reversing keloids and scarring.
Contact Poseidonia Healthcare
to learn more about innovative Regenerative Therapies.