Category Archives: Stem Cell Therapy

Stem Cell Therapy for Osteoarthritis

New treatments and advances in research are giving new hope to people affected by Osteoarthritis pain and symptoms. Stem Cell Research Centre provides stem cell therapy for Osteoarthritis to help those with unmet clinical needs achieve optimum health and better quality of life.

Stem cell therapy for Osteoarthritis is being studied for efficacy in improving the complications in patients through the use of their own stem cells. These procedures may help patients who dont respond to typical drug treatment, want to reduce their reliance on medication, or are looking to try stem cell therapy before starting drug treatment.

To learn more about becoming a patient and receiving stem cell therapy for Osteoarthritis through Stem Cell Research Centre, please contact one of our patient advocates at (800) 609-7795 or fill out the contact form on this page.Below are some frequently asked questions about stem cell treatment for Osteoarthritis.

The majority of complications in Osteoarthritis patients are related to the deterioration of cartilage that cushions the ends of bones in your joints. Cartilage is a firm, slippery tissue that permits nearly frictionless joint motion. In Osteoarthritis, this surface become rough. Eventually, if the cartilage wears down completely, patients will be left with bone rubbing on bone.

Stem cell treatment provided by Stem Cell Research Centre is designed to target these areas within the joints to help with the creation of new cartilage cells. Mesenchymal stem cells are multipotent and have the ability to differentiate into cartilage called (chondrytes). The goal of each stem cell treatment is to inject the stem cells into the joint to create cartilage (chondryte cells). Stem cells are a natural anti-inflammatories which can assist with Osteoarthritis pain and swelling in the joint area.

Stem cells are the basic building blocks of human tissue and have the ability to repair, rebuild, and rejuvenate tissues in the body. When a disease or injury strikes, stem cells respond to specific signals and set about to facilitate the healing process by differentiating into specialized cells required for the bodys repair.

There are four known types of stem cells which include:

Stem Cell Research Centre provides autologous adult stem cells (from fat tissue) where the stem cells come from the person receiving treatment.

Stem Cell Research Centre provides autologous adult adipose-derived stem cells (from fat tissue) where the stem cells come from the person receiving treatment.

We tap into our bodys stem cell reserve daily to repair and replace damaged or diseased tissue. When the bodys reserve is limited and as it becomes depleted, the regenerative power of our body decreases and we succumb to disease and injury.

Three sources of stem cells from a patients body are used clinically which include adipose tissue (fat), bone marrow and peripheral blood.

Performed by Board Certified Physicians, dormant stem cells are extracted from the patients adipose tissue (fat) through a minimally invasive mini-liposuction procedure with little to no downtime.

During the liposuction procedure, a small area (typically the abdomen) is numbed with an anesthetic and patients receive mild to moderate sedation. Next, the extracted dormant stem cells are isolated from the fat and activated, and then comfortably infused back into the patient intravenously (IV) and via other directly targeted methods of administration. The out-patient procedure takes approximately four to five hours.

Stem Cell Research Centre provides multiple administration methods for Osteoarthritis patients to best target the disease related conditions and symptoms which include:

Since each condition and patient are unique, there is no guarantee of what results will be achieved or how quickly they may be observed. According to patient feedback, many patients report results in one to three months, however, it may take as long as six to nine months. Individuals interested in stem cell therapy are urged to consult with their physician before choosing investigational autologous adipose-derived stem cell therapy as a treatment option.

In order to determine if you are a good candidate for adult stem cell treatment, you will need to complete a medical history form which will be provided by your Stem Cell Research Centre Patient Advocate. Once you complete and submit your medical history form, our medical team will review your records and determine if you are a qualified candidate for adult stem cell therapy.

Stem Cell Research Centre team members are here to help assist and guide you through the patient process.

Patients travel to Stem Cell Research Centre treatment center located in San Diego, California for stem cell treatment from all over the United States, Canada and around the globe. Treatment will consist of one visit lasting a total of three days. The therapy is minimally invasive and there is little to no down time. Majority of patients fly home the day after treatment.

We provide stem cell therapy for a wide variety of diseases and conditions for which traditional treatment offers less than optimal options. Some conditions include Multiple Sclerosis, Parkinson's Disease, Rheumatoid Arthritis, Osteoarthritis and Chronic Obstructive Pulmonary Disease (COPD).

The side effects of the mini-liposuction procedure are minimal and may include but are not limited to: minor swelling, bruising and redness at the procedure site, minor fever, headache, or nausea. However, these side effects typically last no longer than 24 hours and are experienced mostly by people with sensitivity to mild anesthesia. No long-term negative side effects or risks have been reported.

The side effects of adipose-derived stem cell therapy are minimal and may include but are not limited to: infection, minor bleeding at the treatment sites and localized pain. However, these side effects typically last no longer than 24 hours. No long-term negative side effects or risks have been reported.

Stem Cell Research Centre provides adult stem cell treatment with mesenchymal stem cells which come from the person receiving treatment. Embryonic stem cells are typically associated with ethical and political controversies.

Stem cell treatment is not FDA approved.

Stem cell for arthritis treatment is not covered by health insurance at this time. The cost for standard preoperative labs are included. Additional specific labs may be requested at the patients expense.

Osteoarthritis, or degenerative joint disease, is the most common type of arthritis. It is caused by the degradation of a joints cartilage. Cartilage is a firm, rubbery material that covers and cushions the ends of bones in normal joints. Its main function is to reduce friction in the joints and serve as an intermediary or cushion.

Over time, the cartilage may wear away in some areas, greatly decreasing its ability to act as a shock absorber. As the cartilage wears away, tendons and ligaments stretch, causing pain. In advanced cases, the bones could rub against each other, causing even more pain and loss of movement.

Osteoarthritis is very common in middle-aged and older people, and its symptoms can range from very mild to very severe. The disorder most often affects hands and weight-bearing joints such as knees, hips, feet and shoulders, but can affect almost any joint in the body.

More:
FAQs - Stem Cell Therapy for Osteoarthritis | SCRC

Stem Cell Therapy has been around for quite some time, but due to high cost it was primarily used for recovery in athletes and the financial elite. However, with the progression of science and knowledge, stem cell therapy has become much more widely used and financially attainable.

Tampa Rejuvenation is the first in Tampa Bay to utilize the benefits of stem cell therapy for the purpose of anti-aging and sexual performance. We realize as our patients age, their bodies no longer have the regenerative properties to attain the desired results from using their growth factors alone as with our PRP, or Plasma Rich Platelet, therapy. Although many patients will still yield improvement with the PRP alone, the magnitude of cytokines and growth factors in your blood as you age will deplete with age. By implementing stem cell therapy, the number of growth factors are exponential allowing our bodies to regenerate on a magnitude that is otherwise unattainable with some results lasting for 3-5 years.

Stem Cell Therapy can be used to restore vitality to the skin, encourage the growth of hair, and even restore sexual performance and pleasure.

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Stem Cell Therapy for Anti-Aging and Sexual Performance ...

Stem cell therapy is an exciting area of research that holds tremendous potential for helping chronic pain patients reduce their pain. Rapid advances in this field of medicine are buoying doctors and patients hopes that the exciting therapy could change lives. Advances are being made nearly every day, and as scientists further understand the nature of these cells, even more uses for them are becoming known. If youve ever wondered about how stem cell therapy for pain could help you, these 15 questions delve into how this therapy works and who it could be used for.

Science has a strong interest in stem cells because of their renewing properties and the ability of these cells to develop into any type of tissue in the body of the organism. Researchers believe that they have the potential for immeasurable clinical uses in health. Research is advancing many stem cell based therapies for people who suffer from diseases such as:

Mayo Clinic explains how this therapy works:

Stem cell therapy, also known as regenerative medicine, promotes the reparative response of diseased, dysfunctional or injured tissue using stem cells or their derivativesResearchers grow stem cells in a lab. These stem cells are manipulated to specialize into specific types of cells, such as heart muscle cells, blood cells or nerve cells. The specialized cells can then be implanted into a person.

Stem cell therapy is actually a type of treatment within the larger umbrella of regenerative medicine. Our longer post on regenerative medicine discusses the types of treatments available, including stem cell therapy and platelet-rich plasma injections.

Stem cells are essentially blank canvases that can transform into any type of cell in the human body. Specialized cells like bone cells, liver cells, and heart cells begin as stem cells. The process of the cells transforming from blank slates into specialized cells is called differentiation.

Stem cell therapy is the process of injecting these cells into damaged areas of the body, such as arthritic knees or shoulders. The stem cells then differentiate into damaged tissue, helping to regenerate the entire area.

There are two different types of natural stem cells and one that is genetically reprogrammed within the laboratory. Embryonic stem cells are the most immature and are found within the early stages of a growing embryo, usually after it has been left to develop five to six days. After the egg and sperm have united, the fertilized egg divides and creates stem cells that differentiate into the specialized cells the body requires to function. Many techniques using stem cells for pain therapies no longer rely on these types of stem cells.

The second type of stem cell, found naturally in organisms, is adult stem cells. These are present in developed tissue, such as muscle, skin, bone, brain, and blood. Also called tissue stem cells, they can self-renew and generate one specialized cell type. Under normal circumstances these tissue stem cells, or adult stem cells, will generate the type of cells that make up the organ in which they reside. These cells are used by the body to divide and repair injured areas or regenerate into specialized cells to replace the ones that are dead or damaged.

The third type of stem cells, which are genetically reprogrammed in the laboratory, are induced pluripotent stem cells. After years of stem cell research and development, it was discovered that artificially triggering certain genetic components would prompt different cells to become pluripotent stem cells, which were similar in nature to embryonic stem cells. This helps avoid ethical concerns associated with using human embryonic tissue for research and regenerative medicine.

The following video from an Arizona pain doctor goes into detail about how stem cell therapy for pain works.

There are twomajor types of stem cells: those harvested from adults and those harvested from embryonic tissues.

However, there are other ways to retrieve stem cells that reduce the use of embryonic stem cells, including:

As the Euro Stem Cell organization reports, some of these types of stem cells are more effective than others.

One source of stem cells is human embryos. These cells are called pluripotent stem cells, and theyre very useful to researchers because they can be multiplied indefinitely in the laboratory. Although these cells are often cultivated from embryos that are just a few days old, they can also be taken from fetal tissue thats older than eight weeks, according to the National Institutes of Health (NIH).

The majority of therapeutic stem cells come from adults. Even though embryos are the richest source of stem cells, humans of all ages have stem cells. Stem cells give adults the ability to replace damaged tissue, heal wounds, and grow hair.The patients own adult stem cells are extracted, purified, concentrated, and then injected into the damaged tissue. This process is usually non-surgical and the individual has very little recovery time. Most patients report only some soreness around the site of the injection. Sometimes there is also slight bruising. There have been no reports of serious side effects from treatments using stem cell therapy.

Newer research has given scientists the ability to reprogram specialized adult cells so they essentially return to their original stem cell state. These reprogrammed cells are known as induced pluripotent stem cells. Although this ability exists, scientists arent sure how or if these artificially created stem cells behave differently than other types.

Despite these unknowns, the reprogrammed stem cells are already being used in the development of medicines and helping scientists learn more about specific types of diseases, according to NIH.

Stem cells have many uses, and the full spectrum of their application isnt yet known. One way stem cells are helping researchers is by illuminating the inner workings of various diseases. Stem cells offer scientists the ability to model human disease progression in a laboratory setting.

This is exciting because many studies rely on animals with similar, but not exact, biology to humans. The more scientists can understand about human-specific disease progression, the greater insight they have regarding potential treatments.

For example, one of the earliest uses for stem cells were bone marrow transplants, used to help patients with leukemia or sickle cell anemia heal. This treatment has been used for more than 40 years. In addition, stem cell therapy may be used to treat:

The application of most interest to chronicpatients is likely the emerging field of regenerative medicine, which is the science of helping tissues regenerate. This field examines the potential of stem cells to repair damaged tissue and heal areas of the body bone and potentially organs, too affected by arthritis, diabetes, spinal cord injuries, nerve damage, Parkinsons disease, and more.

Exciting research has also uncovered the potential for stem cells to expand the number of lungs available for transplant. A portion of lungs available for transplant arent used because they become damaged. However, research from the American Physiological Society has found stem cells could help repair the organs and prepare them to save lives.

Other recent researchstories include:

For many of the studies underway, time is needed to fully examine the benefits and potential dangers of this treatment. Another obstacle is obtaining specific types of adult stem cells. Theyre difficult to grow in the laboratory, making it hard to produce the large numbers available for research.

Another potential issue with donor stem cells is the possibility of rejection. The immune system of the recipient could reject the cells, essentially making it difficult for the treatment to work as intended and causing ancillary problems.

Finally, since this is such a new treatment area, some government agencies are calling for more oversight of its use. Others are pushing back, claiming that stem cell therapy provides a new area of treatment for patients who have exhausted all other options.

That being said, even though there are complications and roadblocks to its use, the benefits of stem cell therapy could be huge. As the American Academy of Anti-Aging Medicine notes:

[A]n analysis of the potential benefits of stem cells based therapies indicates that 128 million people in the United States alone may benefit with the largest impact on patients with Cardiovascular disorders (5.5 million), autoimmune disorders (35 million) and diabetes (16 million US patients and more than 217 million worldwide).

Californias Stem Cell Agency gives a great overview of this process, noting:

In order to be approved by the FDA for use in human trials, stem cells must be grown in good manufacturing practice (GMP) conditions. Under GMP standards, a cell line has to be manufactured so that each group of cells is grown in an identical, repeatable, sterile environment. This ensures that each batch of cells has the same properties, and each person getting a stem cell therapy gets an equivalent treatment. Although the FDA hasnt yet issued guidelines for how pluripotent stem cells need to meet GMP standards, achieving this level of consistency could mean knowing the exact identity and quantity of every component involved in growing the cells.

Stem cell therapy is being studied for a number of chronic pain conditions, especiallypain in the:

Stem cell therapy for pain could help reduce the inflammation that results in chronic pain, or it could help to heal regenerative conditions that lead to pain, such as arthritis.

Using stem cell therapy for knee pain is one of the leading areas of research. Stem cell therapy for knees can be provided as stem cell injections or as blood platelet treatments from the body itself (another form of regenerative medicine).These two treatments may help relieve pain associated with:

The leading researchers on stem cell therapy for knee pain claim that it can help patients avoid surgery, with its associated costs and risks.

Since stem cell therapy promises to treat a number of conditions related to degenerative conditions, like arthritis and tendonitis, stem cell therapy may present a great treat option for hip pain related to these causes.

The National Multiple Sclerosis Society is leading the efforts in research, but currently reports the following:

At present, there are no approved stem cell therapies for MS. Larger, longer-term, controlled studies are needed to determine the safety and effectiveness of using stem cells to treat MS. When the results of these and subsequent clinical trials are available, it should be possible to determine what the optimal cells, delivery methods, safety and actual effectiveness of these current experimental therapies might be for different people with MS.

Potentially. One of our sister clinics, Arizona Pain, is participating in a study evaluating the potential of stem cells to reduce back pain related to degenerative disc disease. This progressive condition sometimes results from injury, but other times has no clear cause.

The study is exciting because it involves stem cells harvested from the bone marrow of healthy, young adults, and therefore itdoesnt come with the ethical concerns of embryonic stem cells. So far, the results have been very positive, and a significant number of people who received stem cells for their back pain have experienced reduced discomfort and improved quality of life.

This study is currently in Phase III, which is the phase immediately preceding potential FDA approval. This means it could soon be available to many more patients and potentially covered by insurance, although each insurance companys coverage policy varies.

Absolutely, and the research into this area is very promising. In fact, scientists have recently uncovered the specific type of stem cell most likely to reduce arthritis pain. Theyre special cells that are specifically able to rebuild tissue, bone, and cartilage, potentially offering much relief to osteoarthritis patients.

What other questions do you have regarding stem cell therapy for pain? If youre ready to learn more about using stem cell therapy to treatyour pain, click the button below to find a pain specialist in your area.

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15 Stem Cell Therapy For Pain Questions, Answered

Stem Cell Therapy involves the use of stem cells to stimulate the bodys natural repair mechanisms to repair, regenerate or replace damaged cells, tissues and organs. This physician-directed therapy is very safe, ethical and does not entail the use of any fetal or embryonic cells or tissue. It has been described as the future of medicine by many prestigious groups including the National Institutes of Health and the Institute of Medicine.

The field of Stem Cell Therapy continues to evolve, focusing on cures rather than just treatments for essentially all types of chronic diseases and conditions, including diabetes and cardiovascular disease, as well as various forms of arthritis and various orthopedic problems. When cells are transplanted into a patient, they do not stay for more than a few days. However, the cells provide a large and robust stimulus to turn on native repair mechanisms. The number of stem cells present in the body and their functional capacity to repair damaged tissue declines with each advancing decade of life, and chronic diseases further impede their ability to respond to chronic injury or damage in the body. This is why research has led to new solutions, which include the use of umbilical cord blood as the source of cells, which have the most potent ability to generate new tissues without risk of rejection. We at Advanced Regenerative Orthopedics use stem cells that are supplied by an FDA-registered cord blood bank.

Stem Cell Therapy and Tissue Engineering are much simpler and effective options that use very powerful young cells to stimulate the patients own native repair mechanisms to regenerate new cartilage and bone. The physician-directed treatment at ARO is a comprehensive approach to a specific joint with the goal of reducing the disabling pain and increasing function.

At Advanced Regenerative Orthopedics, our goal is to provide minimally invasive treatments along with regenerative techniques to target your bodys natural healing ability. Used as part of our innovative, three-tiered approach, physician-directed arthritis stem cell treatment can help patients of all ages get pain relief, increase their joint mobility and enjoy a higher quality of life.

Stem cell therapy can be an effective treatment for those suffering from a broad range of arthritic conditions. By using stem cells for arthritis, Advanced Regenerative Orthopedics stimulates your bodys natural mechanism to repair, regenerate and replace damaged cells within your joints.

If you live in Tampa, Brandon, St. Petersburg, Clearwater, Lakeland, Sarasota, The Villages, Ocala, or the surrounding areas and are interested in learning more about using stem cells for arthritis or any other joint condition, please contact our courteous and efficient office staff today to schedule an appointment. We look forward to discussing the benefits of physician-directed arthritis stem cell treatment with you and determining the best course of treatment to restore your joint health.

As many of our patients travel to us from outside the state of Florida for our world class procedures, our team is very familiar with managing the care & travel for remote patients.

Read the rest here:
Stem Cell Therapy | Advanced Regenerative Orthopedics

Stem Cell Therapy: Helping the Body Heal Itself

Stem cells are natures own transformers. When the body is injured, stem cells travel the scene of the accident. Some come from the bone marrow, a modest number of others, from the heart itself. Additionally, theyre not all the same. There, they may help heal damaged tissue. They do this by secreting local hormones to rescue damaged heart cells and occasionally turning into heart muscle cells themselves. Stem cells do a fairly good job. But they could do better for some reason, the heart stops signaling for heart cells after only a week or so after the damage has occurred, leaving the repair job mostly undone. The partially repaired tissue becomes a burden to the heart, forcing it to work harder and less efficiently, leading to heart failure.

Initial research used a patients own stem cells, derived from the bone marrow, mainly because they were readily available and had worked in animal studies. Careful study revealed only a very modest benefit, so researchers have moved on to evaluate more promising approaches, including:

No matter what you may read, stem cell therapy for damaged hearts has yet to be proven fully safe and beneficial. It is important to know that many patients are not receiving the most current and optimal therapies available for their heart failure. If you have heart failure, and wondering about treatment options, an evaluation or a second opinion at a Center of Excellence can be worthwhile.

Randomized clinical trials evaluating these different approaches typically allow enrollment of only a few patients from each hospital, and hence what may be available at the Cleveland Clinic varies from time to time.

Reviewed: 08/17

Cleveland Clinic is a non-profit academic medical center. Advertising on our site helps support our mission. We do not endorse non-Cleveland Clinic products or services. Policy

Excerpt from:
Stem Cell Therapy for Heart Disease | Cleveland Clinic

The stem cell procedure for the treatment of knee pain is minimally invasive, takes about 3 hours, and patients walk out of the office on their own following treatment. To start, stem cells are harvested from your abdominal or love handle fat using high tech, minimally-invasive liposuction equipment. Stem cells from your bone marrow are also utilized. The bone marrow concentrate is harvested using a specially designed, low-trauma needle which is placed into the posterior iliac crest under live x-ray guidance.

Mild IV sedation, in combination with local anesthetic, is used to provide patient comfort during the procedure. The harvested cells are then prepared for injection using an advanced separation and centrifugation process.

With the use of live x-ray guidance, the cells and growth factors are injected into the affected knee joint under sterile conditions. Dr. Brandts extensive experience with knee injections, along with the aid of the appropriate image guidance, ensures the cells are reaching their targeted area so you have the best chance for improvement.

To complement the high stem cell count achieved with the use of adipose derived stem cells, we often utilize PRP, A2M, and placental derived growth factors during our knee procedures and follow-up treatments.

See the article here:
Stem Cell Therapy for Knees: Definitive Guide [with Patient ...

Stem cell therapy may be the key to curing hair loss forever. But the technology is still in development.

In this article Ill look at how stem cell therapy works to restore lost hair. Ill help you decide if it could be a good option for you

And youll also find out how long you might have to wait before the treatment is available.

Advances in the understanding of stem cell biology may offer potential treatments for a variety of conditions, including hair loss, receding hairlines, and thinning hair.

While the research involving stem cells has been hampered by political influence in the past, there have been many recent advancements in the science of stem cell therapy and calls for further research.

Stem cell research holds promise for addressing a wide array of human malady, and some of the current research focuses on treating skin conditions and other causes of hair loss.

In basic terms, a stem cell is an undifferentiated cell that has the potential to develop into different types of cells within the body. According the the National Institutes of Health, stem cells also serve as a type of internal repair system for many tissues.

These cells have an almost limitless capacity to divide as long as the organism is alive, replenishing other cells indefinitely as cells grow through normal cycles of death and regeneration.

When a stem cell divides into two cells, each of these cells has the ability to remain a stem cell or become another type of more specialized cell such as epithelial or blood cells.

Currently, stem cells are divided into two sub-groups based on their origin, and are either embryonic or adult derived.

While the research being done on the potential for stem cell therapies to address spans a significant range, stem cell therapy does show promise for treating a variety of conditions including hair loss.

While the research being done on the potential for stem cell therapies to address spans a significant range, stem cell therapy does show promise for treating a variety of conditions including hair loss.

However, there remains a lack of detail knowledge and research related to the specific potential of stem cell biology and the development of stem cell therapies.

The Journals of Gerontology have published articles related on stem cell biology, and discussed the role of stem cells in the process of hair growth and how stem cell biology can be related to hair loss.

The authors acknowledge the role of stem cells in the maintenance and growth of bodily cells, including those related to hair growth.

One potential cause of hair loss and thinning hair may be related to a condition known as stem cell exhaustion, which can occur for many reasons including genetic diseases.

There is initial research in potential treatments for stem cell exhaustion, the prevention of which can help to stop related hair loss.

In a groundbreaking article published in Nature, the authors discuss the role of stem cells in hair growth and their research towards utilizing stem cell therapies to treat conditions of hair loss.

In order for hair growth to take place, the hair follicle requires epithelial stem cells for the propagation of growth.

Until recently, the process of developing stems cells that are differentiated into epithelial cells has not been possible.

One of the most promising treatments utilizing stem cell therapy comes from research out of China and Canada, where scientists have successfully been able to re-seed hairlines with epithelial stem cells.

Traditional treatments utilizing medication, or even hair follicle transplants, may work for a period of time but continued growth at the follicle has proven difficult to sustain.

These treatments are also unable to continuously regenerate new hair follicles once the treatment has ended.

The current studies on rodents provide some promise that some of the prior difficulties in using stem cells may have been solved through the use of a layer of dermal papilla cells that serve as a protective layer for the initial seeding process.

This coating has improved the therapeutic effect of the stem cell therapy, allowing the hair follicle to continue the normal process of morphogenesis and hair cycling.

Research from the University of Pennsylvania, funded by the US National Institutes of Health, has shown that converting stem cells that have not been differentiated into epithelial stem cells and injecting them into the skin of rodents will lead to the growth of human-like hair.

There remain some limitations to this treatment, including the fact that it has not yet been tested on human subject and that the growth that is seen does not include the sebaceous cells which are normally present in the growth of skin and epithelial cells.

The researchers also noted that some of the growth that took place were more representative of abnormal tumor-like lumps which would not be considered acceptable for treatment of hair loss or baldness in humans.

One study published in the US National Library of Medicine found that the number of hairs present in both males and females who received the treatment were significantly increased.

The same individual was treated on only half of their head, to provide a comparison, and it was found that the treatment side showed statistically significant improvements in the number of hairs.

The specific stem cells that were utilized are called adipose-derived stem cells.

While many of the potential treatments using stem cell therapy have only been tested on rodents, there remains promise in the continued and ongoing research that may address conditions of hair loss, receding hairlines, and thinning hair.

The most exciting aspect of stem cell therapies used to combat hair loss is that this type of treatment offers more long term solutions than hair transplants and has less potential for side effects than treatments involving medication or supplements.

Due to the relatively recent development of stem cell therapies, there remain a significant amount of unknowns about the potential treatments as well as the potential side effects.

The intention of stem cell therapies for treating hair loss is to encourage the growth and generation of epithelial cells, which are necessary for hair growth. However, one of the potential side effects according to a leader in stem cell research is that stem cell treatments can lead to the growth of benign tumors.

The goal is to induce cellular generation, but it can be difficult to ensure the generation of cells is isolated to the growth of hair. Another side effect that has been identified among researchers is that individuals undergoing a form of stem cell therapy commonly have aa weakened immune system

While scientists and researchers have known about the potential of stem cells for decades, the use of stem cell therapies has been somewhat controversial due to where stem cells can be obtained from.

According to the US Department of Health & Human Services, scientists have been utilizing two types of stem cells for research.

The two types of stem cells are embryonic stem cells or somatic/adult stem cells. The cultivation of human embryonic stem cells became controversial due to the nature of their propagation, and the types of research allowed became subject to significant limitations.

Recent advancements in stem cell research have allowed scientists to use the less controversial somatic/adult stem cells in areas of research and potential therapeutic options.

These advancements have made stem cell therapy significantly less controversial and opened up significant possibilities for the future of stem cell research and stem cell therapy.

There is still a significant amount of research to be done on the potential of stem cell therapy, however there are treatments available utilizing stem cells.

Unlike transplants of the past, hair stem cell transplantation utilizes an individuals own naturally developed hair follicles and adult derived stem cells to promote growth in an area where the hair has thinned or receded.

The area from which the follicles are harvested are not damaged and new hair growth will continue, and the area to which the follicles and adult derived stem cells are implanted will begin full hair growth in a matter of weeks.

This process is virtually painless, has limited potential for side effects, and does is not controversial due to the fact that the adult derived stem cells are obtained from the individual themselves.

There are currently limited options for stem cell therapies to address issues of hair loss, thinning hair, and receding hairlines. However, much of the current research being done shows significant promise for the further development of stem cell therapies that will be able to better address such issues.

One of the most intriguing aspects of the use of stem cell therapies for issues of hair loss is that these types of treatments may be able to address many of the underlying conditions that cause hair loss.

The future of stem cell therapies to treat baldness that occurs for a variety of underlying reasons is quite bright, and while the current treatments are in their infancy the potential held in stem cell research is quite promising.

See the article here:
#1 Guide To Stem Cell Therapy For Hair Loss In 2018

How Do Stem Cells Work?

Treatments that harness the power of stem cells are known as regenerative medicine, stem cell therapy, or stem cell transplants. Dr. Burke performs autologous stem cell therapy. This type of regenerative medicine requires no donor or surgeries, therefore making it a beneficial treatment option for many patients. Autologous stem cell enhancement with Dr. Burke Orthopedics is a series of small injections to the area of pain or damaged tissue. Dr. Burke harvests the stem cells from another part of the patients body then transplants the new cells, resulting in the stem cells developing as new tissues and organs that strengthen the body.There are no limits to regenerative medicine. Orthopedic doctors are introducing new advantages and benefits of this medicine as technology advances. Dr. Burke recommends autologous stem cell therapy for many conditions such as arthritis, muscle loss, neuropathy, scarring, skin burns, sports injuries and more.

As a result of its many uses in orthopedics and sports medicine, stem cell therapy stands out among other treatments. This non-surgical treatment reduces pain and generates stronger cells. Autologous stem cell enhancement is one of Dr. Burkes top treatments because of the speedy recovery and natural healing that follows stem cell injections. Patients regain their flexibility, functionality and range of motion with the help of stem cell advancements from Dr. Burke Orthopedics. At any age, stem cell therapy is a beneficial treatment option because of its many benefits and minimal risk. After years of arthritis pain or a devastating sports injury, consider regenerative medicine to repair damaged tissues and cells. Small stem cell injections provide great benefits for patients who wish to regain their normal lifestyle and eliminate painful conditions. Contact Dr. Burke Orthopedics for your same-day appointment with stem cell therapy.

There are many studies showing how stem cells help speed up recovery time for those who are treated. However, results vary from patient to patient. Although the science behind stem cells and how they work is becoming increasingly well-known and trusted throughout the medical community, there is still no way to quantitatively represent how they will impact each individual since every patient is unique.

If you are certain that stem cell therapy is the right treatment for you based on a referral from a doctor or recommendation from another surgeon, the highly skilled surgeon Dr. Burke is a great choice for getting this procedure done.

With some of the most skilled and highly qualified surgeons in the industry, Dr. Bruke has one of the highest success rates. This in part is due to making sure patients we accept as candidates go through a candidacy checking process, therefore ensuring the highest possible chances of the procedure benefetting the pateint.

Read more:
Dr. Burke Orthopedics: Stem Cell Therapy - Pearland, Texas

Stem cells are the future of medicine enhancing personal health.

Stem cells go in the body where they are needed, and become what the body needs them to become. Our stem cells are from human umbilical cord(HUCT) which are undifferentiated cells with no HLA matching, and which are potent, robust and consistent.

Advantages of HUCT:

** For general purposes given intravenously in as little as 10 minutes (for joint problems given intra-articularly)

NOTE: Because HUCT stem cells are less mature, the bodys immune system is unable to recognize them as foreign and so they are not rejected.

(HUCT cells also proliferate or differentiate more efficiently than older cells such as those obtained from the bone marrow)

Administration of HUCT are regulated by the AATB, and approved by the FDA (The FDA regulates HUCT through oversight of tissue banks)

Guidelines: The stem cell can only be used for the homologous function of the cell.

If interested there are over 4,000 clinical trials being conducted worldwide: These can be accessed onwww.clinicaltrials.gov

Many patients benefit from one treatment although further therapies can be performed every 3-6 months since the stem cells reproduce every 28 hours for 65 generations for approximately 90 days.

Side effects are usually very infrequent with about 2% complaining of mild flu-like symptoms. The stem cells should also be given while no anti-inflammatories are administered. (inflammation may be necessary for stem cells to work)

Results are usually apparent in 4-6 weeks but this time period may be shorter or longer.

To request a complimentary Stem Cell consultation, reach us at:

anju@houstonwellnessclinic.com(Contact Anju for scheduling)713-808- 9058

Houston Wellness Clinic550 Post Oak Blvd, Ste 330 Houston, TX 77027doctor@houstonwellnessclinic.com

Excerpt from:
Stem Cell Therapy | Houston Wellness Clinic

By NameArmaghani, Sheyan J, M.D.Baker, Christopher E., M.D.Barna, Steven A., M.D.Beatty, Ellen , M.D.Bernasek, Thomas L., M.D.Clare, Michael P., M.D.Davison, Thomas M., M.D.Echols, Jr., Eddy L., M.D.Epting, Timothy C., D.O.Frankle, Mark A., M.D.Garcia, Michael J, M.D.Garlick, Grant G, M.D.Gasser, Seth I, M.D.Grayson, Christopher W, M.D.Gustke, Kenneth A, M.D.Herscovici, Jr., Dolfi , D.O.Hess, Alfred V., M.D.Infante, Jr., Anthony F, D.O.Jackson, Howard B, M.D.Lindbloom, Benjanmin J., M.D.Lyons, Steven T, M.D.Maxson, Benjamin J, D.O.Mighell, Mark A, M.D.Mir, Hassan R, M.D., M.B.A.Miranda, Michael A, D.O.Morse, Adam C, D.O.Nydick, Jason A, D.O.Palumbo, Brian T, M.D.Pappou, Ioannis P, M.D.Ramirez, Jr., John D., D.C.Reina, David A, D.C.Saatman, Donna A, M.D.Samad, Adil A, M.D.Sanders, Roy W., M.D.Sellman, Jeff E, M.D.Shah, Anjan R, M.D.Small, John M., M.D.Stone, Jeffrey D, M.D.Tresser, Steven J., M.D.Walling, Arthur K., M.D.Watson, David T., M.D.Weinstein, Marc A., M.D.Yi, Seung Jin, M.D.Zaffer, Syed M., M.D.

By SpecialtyAll SpecialtiesArthritis & Adult Reconstruction SurgeryChiropracticElbowFoot, Ankle & Lower LegGeneral OrthopaedicsHand & WristHip & ThighInterventional SpineKnee & LegMusculoskeletal OncologyOrthopaedic TraumaPrimary Care Sports MedicineRoboticsShoulderSpineSports Medicine

By LocationsAll LocationsBloomingdaleBrandonBrooksvilleCitrus ParkNorth Tampa - Temple TerraceNorthdalePalm HarborSouth TampaSun City CenterWesley Chapel

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Stem Cell Therapy | Florida Orthopaedic Institute