Category Archives: Stem Cell Doctors


Doctors perform living donor stem cell transplants in eye …

by Jim Ritter

Debra Astrug, who once feared she was going blind, can see fine now, thanks to a stem cell transplant she received from her daughter, Jessica.

The stem cells came from two pieces of tissue that Dr. Charles Bouchard of Loyola University Medical Center removed from the cornea of Jessica's left eye. When Bouchard proposed the innovative procedure, she immediately agreed.

"It's my mom," Jessica said. "If she needs part of my eye, she's got it."

Before the transplant, Debra Astrug's vision was extremely blurred like looking through a glass smeared with Vaseline. She could not read or drive. And when Jessica took her to buy groceries, Debra had to bring a magnifying glass to read labels.

"It was horrible," she said.

But since receiving the stem cell transplant, and wearing special contact lenses, Debra Astrug's vision has improved to 20/25.

Loyola is among a handful of centers that perform living-related corneal stem cell transplants on patients who have too few corneal stem cells. Ophthalmologists traditionally have treated such deficiencies by transplanting stem cells from deceased donors. In these cases, in order to prevent the patient's immune system from rejecting the donated stem cells, patients take immune-suppressing drugs for several years or longer. But such drugs can have toxic side effects and also increase the risk of infections, said Bouchard, who is chair of Loyola's Department of Ophthalmology.

Bouchard is performing corneal/limbal stem cell transplants from living donors who are first-degree relatives of patients. Because the donor and recipient are closely related, most patients can avoid taking systemic immune-suppressing drugs.

Stem cell transplants are the treatment of choice for patients who have severe cases of limbal stem cell deficiency, or LSCD. (Limbal refers to the border of the cornea and sclera. The cornea is the transparent front part of the eye, and the sclera is the white part of the eye.)

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Beverly Hills Orthopedic Institute Now Offering Stem Cell Procedures for Hip Arthritis to Help Patients Avoid Surgery

Beverly Hills, California (PRWEB) May 05, 2014

The top stem cell orthopedic doctor in Beverly Hills at Beverly Hills Orthopedic Institute is now offering stem cell procedures for hip arthritis to help patients avoid the need for joint replacement. The procedures are administered by a highly respected, Double Board Certified Beverly Hills orthopedic doctor, Dr. Raj. Call (310) 438-5343 for more information and scheduling.

Millions of Americans suffer from debilitating hip arthritis and hundreds of thousands annually undergo hip replacement procedures. While hip replacement typically provides exceptional pain relief, it is a major procedure with potential complications in the short or long term. Therefore, it is recommended to only have the procedure as a last resort.

Stem cell procedures for hip arthritis offer the potential for not only relieving pain, but also regenerating damaged tissue. Dr. Raj offers multiple types of stem cell procedures.

The first type of procedure involves bone marrow from the patient. The marrow is harvested with a short outpatient procedure, with the marrow being immediately processed to concentrate the stem cells and growth factors. At the same setting, the concentrate is then injected into the painful hip. Both can be treated at the same time.

The second type of procedure involves amniotic derived stem cells, which are harvested from consenting donors after a scheduled c-section. No fetal tissue is involved, alleviating any ethical concerns. The fluid is processed at an FDA regulated lab and is extremely rich with stem cells, growth factors, anti-inflammatory material and more.

Results in small studies looking at regenerative medicine injections with stem cells have shown excellent pain relief for joint arthritis, tendonitis and ligament injury. Patients are often able to avoid the need for surgery and get back to participating in desired recreational activities.

Dr. Raj has been named one of the top orthopedic doctors in Los Angeles on several occasions, and is also a medical correspondent for ABC News. He is an expert in the nonoperative and operative treatment of hip arthritis.

For those desiring top notch regenerative medicine treatment options for hip arthritis in Los Angeles and Beverly Hills, call (310) 438-5343.

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Beverly Hills Orthopedic Institute Now Offering Stem Cell Procedures for Hip Arthritis to Help Patients Avoid Surgery

Dr. Max Gomez: Scientists Use Stem Cells To Grow Functional Human Muscle

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NEW YORK(CBSNewYork) Growing new muscle could be a huge boon to thousands of soldiers wounded in IED attacks. It could also help accident and trauma victims as well as those injured in sports.

As CBS 2s Dr. Max Gomez reported, scientists used stem cells to grow human muscle and thats just the start of a treatment that could restore function for thousands of seriously injured patients.

Nick Clarks lower leg was badly damaged in a skiing accident nearly a decade ago.

Because of complications of that sever break there was a lot of internal bleeding inside these muscle compartments and that caused swelling, Clark said.

As a result of the accident Clark lost a large amount of muscle.

I couldnt push off my left foot at all. I had no balance, he said.

Clark was one of five patients who took part in an experiment to test a new stem cell technique that starts with connective tissue from pigs.

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Dr. Max Gomez: Scientists Use Stem Cells To Grow Functional Human Muscle

FAQs [Stem Cell Information] – National Institutes of Health

Why are doctors and scientists so excited about human embryonic stem cells? Stem cells have potential in many different areas of health and medical research. To start with, studying stem cells will help us to understand how they transform into the dazzling array of specialized cells that make us what we are. Some of the most serious medical conditions, such as cancer and birth defects, are due to problems that occur somewhere in this process. A better understanding of normal cell development will allow us to understand and perhaps correct the errors that cause these medical conditions.

Another potential application of stem cells is making cells and tissues for medical therapies. Today, donated organs and tissues are often used to replace those that are diseased or destroyed. Unfortunately, the number of people needing a transplant far exceeds the number of organs available for transplantation. Pluripotent stem cells offer the possibility of a renewable source of replacement cells and tissues to treat a myriad of diseases, conditions, and disabilities including Parkinson's disease, amyotrophic lateral sclerosis, spinal cord injury, burns, heart disease, diabetes, and arthritis.

What will be the best type of stem cell to use for therapy? Pluripotent stem cells, while having great therapeutic potential, face formidable technical challenges. First, scientists must learn how to control their development into all the different types of cells in the body. Second, the cells now available for research are likely to be rejected by a patient's immune system. Another serious consideration is that the idea of using stem cells from human embryos or human fetal tissue troubles many people on ethical grounds.

Until recently, there was little evidence that multipotent adult stem cells could change course and provide the flexibility that researchers need in order to address all the medical diseases and disorders they would like to. New findings in animals, however, suggest that even after a stem cell has begun to specialize, it may be more flexible than previously thought.

There are currently several limitations to using traditional adult stem cells. Although many different kinds of multipotent stem cells have been identified, adult stem cells that could give rise to all cell and tissue types have not yet been found. Adult stem cells are often present in only minute quantities and can therefore be difficult to isolate and purify. There is also evidence that they may not have the same capacity to multiply as embryonic stem cells do. Finally, adult stem cells may contain more DNA abnormalitiescaused by sunlight, toxins, and errors in making more DNA copies during the course of a lifetime. These potential weaknesses might limit the usefulness of adult stem cells.

It is now possible to reprogram adult somatic cells to become like embryonic stem cells (induced pluripotent stem cells, iPSCs) through the introduction of embryonic genes. Thus, a source of cells can be generated that are specific to the donor, thereby increasing the chance of compatibility if such cells were to be used for tissue regeneration. However, like embryonic stem cells, determination of the methods by which iPSCs can be completely and reproducibly committed to appropriate cell lineages is still under investigation. Since they are derived from adult cells, iPSCs may also suffer DNA abnormalities, as described in the previous paragraph.

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FAQs [Stem Cell Information] - National Institutes of Health

ADULT STEM CELL THERAPY IS AVAILABLE NOW!

ADULT STEM CELL THERAPY IS AVAILABLE NOW!

Australia - New Zealand - Asia & Pacific Rim - China - Italy

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Our Foundation is a philanthropic (not for profit) charitable organization that will advise un-well people how to get access to Adult Stem Cell Therapy (ASCT). The Foundation will also promote a campaign showing how it is possible to prevent or limit the progression of these degenerative diseases to the general public. Degenerative disease is an uncontrolled escalating world problem that if not controlled has the ability to bankrupt our health systems. Very little is being done to control this epidemic in Degenerative Disease.

The purpose of the Foundation is to show that people suffering from a degenerative disease like Parkinsons, Multiple Sclerosis, Diabetes 1 & 2, Stroke, Alzheimers, Spinal Cord injuries, Liver diseases, Myocardial infarction, (to name a few) can now receive Adult Stem Cell Therapy that may change their quality of life for the better. That there is now HOPE.

The Foundation wants to especially help children suffering from any debilitating or degenerative disease, for example like Cerebral Palsy, Muscular Dystrophy, Autism, Spinal injuries, Cystic fibrosis, ADHD to name a few. Stem cell treatments have progressed in leaps and bounds in these areas and we have state of the art clinics that specialize in these types of child diseases. Children, because they are still growing can usually benefit substantially from an early intervention using stem cell therapies. Just fill out the Application Formfor a experimental transplant and we will be only to happy to advise both the parents or a fund raising group seeking to help a particular child.

The Adult Stem Cell Foundation has also become the Information Centre in Australasia for clinics that have demonstrated they abide by the highest medical standards, and have a proven track record with these therapies.

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ADULT STEM CELL THERAPY IS AVAILABLE NOW!

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The adult stem cell doctors at Regenocyte treat high-risk, life-threatening conditions of the heart lungs, brain and spinal cord injuries and vascular diseases. Regenocytes founder Dr. Zannos Grekos and his team of international medical doctors, successfully transplant adult stem cells (autologous) to treat heart disease such as cardiomyopathy, pulmonary disease like COPD and Cystic Fibrosis,neurological disease such as Parkinsons and Alzheimers, spinal cord injuries and many other health problems with adult stem cell therapy. Until now, many of the diseases that have not been treatable with traditional medicine or could only be treated through surgery or drugs are now being successfully treated by adult stem cell doctors.

Start NOW and learn how adult stem cell doctors can help you.

Regenocytes adult stem cell doctors, process adult stem cells, taken from the patients own bone marrow or Adipose (fat) tissue, to successfully in treat cardiovascular disease, traumatic brain injury and many other medical conditions. Patients that once had limited options are now finding viable solutions through stem cell therapies with Regenocyte.

Adult Stem Cell Therapy can work for you. Find out HERE.

Adult stem cell therapy research has been documented to effectively treat many inoperable and last stage diseases. Stem cell therapies are used by many respected and qualified physicians around the world as an alternative treatment for more invasive procedures such as pacemakers and even organ transplant.

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Scientists Identify Cancer Specific Cell for Potential Targeted Treatment of Gastric Cancer

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Newswise A team of scientists led by a researcher from the Cancer Science Institute of Singapore (CSI Singapore) at the National University of Singapore has identified the cancer specific stem cell which causes gastric cancer. This discovery opens up the possibility of developing new drugs for the treatment of this disease and other types of cancers.

The research group, led by Dr Chan Shing Leng, Research Assistant Professor at CSI Singapore, demonstrated for the first time that a cancer-specific variant of a cell surface protein, CD44v8-10, marks gastric cancer stem cells but not normal cells. Conceptualised by Dr Chan and Associate Professor Jimmy So, a Senior Consultant from the Department of Surgery at the National University Hospital Singapore, the study is also the first to be conducted with human gastric tissue specimens and took five years to complete. This novel study will be published in the research journal Cancer Research, the official journal of American Association of Cancer Research, in May 2014.

Gastric cancer is a major cause of cancer-related deaths worldwide, with low survival and high recurrence rates for patients with advanced disease. New therapies for the treatment of gastric cancer are urgently needed.

How CD44v8-10 serves as a biomarker

Many cancer cell types express high levels of a cell surface protein known as CD44. This protein marks cancer stem cells that are thought to be responsible for resistance to current cancer therapy and tumour relapse. There are many forms of CD44 and the standard form of CD44, CD44s, is found in high abundance on normal blood cells. It was previously not known which form of CD44 is found on cancer stem cells. This is critical as an ideal cancer target should mark only cancer cells but not normal cells.

Research by the team and other scientists in the field has led to the hypothesis that the growth of gastric cancer may be driven by cancer stem cells. In this study, the researchers analysed 53 patient tissue samples in conjunction with patient-derived xenograft models which are derived from intestinal type gastric cancer. The team is one of the few groups in the world to have a relatively large collection of patient-derived xenograft models for gastric cancer and the first to use these models for identification of gastric cancer stem cells. A total of eight cancer cell lines were used in this study, including six new cell lines which were established by the researchers.

The scientists discovered a cancer-specific CD44 variant, CD44v8-10 marks gastric cancer stem cells but not normal cells. CD44v8-10 promotes cancer cell growth and it is significantly more abundant in gastric tumour sites compared to normal gastric tissue, which makes it easily detectable. The findings results suggest that CD44v8-10 is an ideal target for developing clinical therapeutics against gastric cancer stem cells. As CD44v8-10 is cancer specific, it may also be used as a biomarker for screening and diagnosis of gastric cancer. This is significant as biomarkers for early detection of gastric cancer are currently not available and doctors rely on endoscopy for the screening and diagnosis of this disease.

Said Dr Chan, With our findings, we can now work on developing drugs that would recognise and attack the cancer stem cells only, reducing the side effects on normal cells. With additional funding, we aim to have a drug that can show efficacy in our models within three years.

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Scientists Identify Cancer Specific Cell for Potential Targeted Treatment of Gastric Cancer

Hematopoietic stem cell transplantation – Wikipedia, the …

Hematopoietic stem cell transplantation (HSCT) is the transplantation of multipotent hematopoietic stem cells, usually derived from bone marrow, peripheral blood, or umbilical cord blood. It is a medical procedure in the fields of hematology, most often performed for patients with certain cancers of the blood or bone marrow, such as multiple myeloma or leukemia. In these cases, the recipient's immune system is usually destroyed with radiation or chemotherapy before the transplantation. Infection and graft-versus-host disease is a major complication of allogenic HSCT.

Hematopoietic stem cell transplantation remains a dangerous procedure with many possible complications; it is reserved for patients with life-threatening diseases. As the survival of the procedure increases, its use has expanded beyond cancer, such as autoimmune diseases.[1][2]

Many recipients of HSCTs are multiple myeloma[3] or leukemia patients[4] who would not benefit from prolonged treatment with, or are already resistant to, chemotherapy. Candidates for HSCTs include pediatric cases where the patient has an inborn defect such as severe combined immunodeficiency or congenital neutropenia with defective stem cells, and also children or adults with aplastic anemia[5] who have lost their stem cells after birth. Other conditions[6] treated with stem cell transplants include sickle-cell disease, myelodysplastic syndrome, neuroblastoma, lymphoma, Ewing's sarcoma, desmoplastic small round cell tumor, chronic granulomatous disease and Hodgkin's disease. More recently non-myeloablative, or so-called "mini transplant," procedures have been developed that require smaller doses of preparative chemo and radiation. This has allowed HSCT to be conducted in the elderly and other patients who would otherwise be considered too weak to withstand a conventional treatment regimen.

A total of 50,417 first hematopoietic stem cell transplants were reported as taking place worldwide in 2006, according to a global survey of 1327 centers in 71 countries conducted by the Worldwide Network for Blood and Marrow Transplantation. Of these, 28,901 (57%) were autologous and 21,516 (43%) were allogenetic (11,928 from family donors and 9,588 from unrelated donors). The main indications for transplant were lymphoproliferative disorders (54.5%) and leukemias (33.8%), and the majority took place in either Europe (48%) or the Americas (36%).[7] In 2009, according to the World Marrow Donor Association, stem cell products provided for unrelated transplantation worldwide had increased to 15,399 (3,445 bone marrow donations, 8,162 peripheral blood stem cell donations, and 3,792 cord blood units).[8]

Autologous HSCT requires the extraction (apheresis) of haematopoietic stem cells (HSC) from the patient and storage of the harvested cells in a freezer. The patient is then treated with high-dose chemotherapy with or without radiotherapy with the intention of eradicating the patient's malignant cell population at the cost of partial or complete bone marrow ablation (destruction of patient's bone marrow function to grow new blood cells). The patient's own stored stem cells are then transfused into his/her bloodstream, where they replace destroyed tissue and resume the patient's normal blood cell production. Autologous transplants have the advantage of lower risk of infection during the immune-compromised portion of the treatment since the recovery of immune function is rapid. Also, the incidence of patients experiencing rejection (graft-versus-host disease) is very rare due to the donor and recipient being the same individual. These advantages have established autologous HSCT as one of the standard second-line treatments for such diseases as lymphoma.[9] However, for others such as Acute Myeloid Leukemia, the reduced mortality of the autogenous relative to allogeneic HSCT may be outweighed by an increased likelihood of cancer relapse and related mortality, and therefore the allogeneic treatment may be preferred for those conditions.[10] Researchers have conducted small studies using non-myeloablative hematopoietic stem cell transplantation as a possible treatment for type I (insulin dependent) diabetes in children and adults. Results have been promising; however, as of 2009[update] it was premature to speculate whether these experiments will lead to effective treatments for diabetes.[11]

Allogeneic HSCT involves two people: the (healthy) donor and the (patient) recipient. Allogeneic HSC donors must have a tissue (HLA) type that matches the recipient. Matching is performed on the basis of variability at three or more loci of the HLA gene, and a perfect match at these loci is preferred. Even if there is a good match at these critical alleles, the recipient will require immunosuppressive medications to mitigate graft-versus-host disease. Allogeneic transplant donors may be related (usually a closely HLA matched sibling), syngeneic (a monozygotic or 'identical' twin of the patient - necessarily extremely rare since few patients have an identical twin, but offering a source of perfectly HLA matched stem cells) or unrelated (donor who is not related and found to have very close degree of HLA matching). Unrelated donors may be found through a registry of bone marrow donors such as the National Marrow Donor Program. People who would like to be tested for a specific family member or friend without joining any of the bone marrow registry data banks may contact a private HLA testing laboratory and be tested with a mouth swab to see if they are a potential match.[12] A "savior sibling" may be intentionally selected by preimplantation genetic diagnosis in order to match a child both regarding HLA type and being free of any obvious inheritable disorder. Allogeneic transplants are also performed using umbilical cord blood as the source of stem cells. In general, by transfusing healthy stem cells to the recipient's bloodstream to reform a healthy immune system, allogeneic HSCTs appear to improve chances for cure or long-term remission once the immediate transplant-related complications are resolved.[13][14][15]

A compatible donor is found by doing additional HLA-testing from the blood of potential donors. The HLA genes fall in two categories (Type I and Type II). In general, mismatches of the Type-I genes (i.e. HLA-A, HLA-B, or HLA-C) increase the risk of graft rejection. A mismatch of an HLA Type II gene (i.e. HLA-DR, or HLA-DQB1) increases the risk of graft-versus-host disease. In addition a genetic mismatch as small as a single DNA base pair is significant so perfect matches require knowledge of the exact DNA sequence of these genes for both donor and recipient. Leading transplant centers currently perform testing for all five of these HLA genes before declaring that a donor and recipient are HLA-identical.

Race and ethnicity are known to play a major role in donor recruitment drives, as members of the same ethnic group are more likely to have matching genes, including the genes for HLA.[16]

To limit the risks of transplanted stem cell rejection or of severe graft-versus-host disease in allogeneic HSCT, the donor should preferably have the same human leukocyte antigens (HLA) as the recipient. About 25 to 30 percent of allogeneic HSCT recipients have an HLA-identical sibling. Even so-called "perfect matches" may have mismatched minor alleles that contribute to graft-versus-host disease.

In the case of a bone marrow transplant, the HSC are removed from a large bone of the donor, typically the pelvis, through a large needle that reaches the center of the bone. The technique is referred to as a bone marrow harvest and is performed under general anesthesia.

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ABOUT DOCTOR | Innovations Stem Cell Center

Dr. Bill Johnson was born in Dallas, Texas, and graduated with honors from Texas Tech University with a pre-med degree. Dr. Johnson received his doctorate from Texas Tech University in 1981 and completed his internal medicine residency at Tech in 1984. From 1984 until 2000, Dr. Johnson practiced as a partner at Lubbock Diagnostic Clinic, serving many of those years as president of the group. Dr. Johnson opened his first practice in Grapevine in January of 2002. In 2005, Dr. Johnson added aesthetic medicine to his practice. In 2006, Dr. Johnsons Grapevine practice was renamed Innovations Medical, which has since expanded to include offices in Dallas and Fort Worth.

Dr. Johnson is a regular contributor to Good Morning Texas, the leading morning show in the DFW area. He is also a featured expert on ABC, FOX, NBC, and CBS. Dr. Johnson is a member of the Texas Medical Association, the American College of Physicians, the American Medical Association, American College of Physician Executives, American Society for Laser Medicine and Surgery and Alpha Omega Alpha Medical Honor Society.

Dr. Johnson has worked with many of our suppliers and medical device manufacturers to assist in clinical trials and other research with the goal of improving patient care. Following are references from several of these manufacturers, which they have provided in recognition of Dr. Johnsons contributions. We will continue to work with device manufacturers and other suppliers to help improve the quality of care for our patients.

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ABOUT DOCTOR | Innovations Stem Cell Center

Center for Joint Regeneration Now Offering Several Stem Cell Procedures for Patients to Avoid Knee Replacement

Phoenix, Arizona (PRWEB) April 21, 2014

The Center for Joint Regeneration is now offering several stem cell procedures for patients with knee arthritis to help avoid the need for joint replacement. The procedures are offered by Board-certified and Fellowship-trained orthopedic doctors, with the stem cells being derived from either bone marrow or amniotic fluid. For more information and scheduling with the top stem cell providers in the greater Phoenix area, call (480) 466-0980.

For the hundreds of thousands of individuals who undergo a knee replacement every year, it should be considered an absolute last resort, after other conservative options have failed. Although the vast majority of knee replacements do well, the implants are not meant to last forever, the surgery does have potential risks and the biomechanics of the knee are significantly changed with the prosthetic implants.

Stem cells for knee arthritis have the potential to repair and regenerate damage from arthritis and relieve pain substantially. Center for Joint Regeneration offers these outpatient procedures with several methods.

The first involves usage of the patient's own bone marrow, with a short harvesting procedure, processing the bone marrow, and injection at the same setting into one or both knees.

Another method is with amniotic derived stem cell rich material, which not only possesses concentrated stem cells but also a significant amount of growth factors and hyaluronic acid. The material is a meteorologically privileged and has been used tens of thousands of times around the world with minimal adverse events.

Platelet rich plasma therapy for knee degeneration is also offered. PRP therapy has been shown in recent studies at Hospital for Special Surgery to work well for pain relief from knee arthritis. It also offers the ability to preserve knee cartilage based on serial MRI's performed in the study.

So far, clinical outcomes with the stem cell regenerative procedures have been excellent. The Board-Certified orthopedic doctors at Center for Joint Regeneration, Doctors Farber and Dewanjee, are exceptionally well trained and highly skilled at these outpatient procedures.

For those individuals looking to avoid or delay the need for knee replacement due to degenerative arthritis, call the Center for Joint Regeneration today at (480) 466-0980. The Center offers stem cell treatments Phoenix and Scottsdale trust!

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Center for Joint Regeneration Now Offering Several Stem Cell Procedures for Patients to Avoid Knee Replacement