By Ashley Dunkak @AshleyDunkak

CBS DETROIT Murray Howe, the head of the radiology department at ProMedica Toledo Hospital, understands the skepticism of those who question the stem cell treatment his father Gordie, also known as Mr. Hockey, received in December in Tijuana, Mexico.

Gordies health had been slowly declining even before the stroke he suffered in late October, and he was essentially bedridden when Murray and his brother Marty took him to Mexico to participate in a clinical trial. They did not have high hopes he was so far gone, Murray recalled but after each step of the two-part process, Gordie improved rapidly, once again able to walk and talk, repossessed of his wit and humor. Murray and his siblings were floored. So were the therapists who had been working with Gordie after his stroke.

Some physicians have scoffed at the idea of stem cells helping an individual who has had a stroke, but Murray a doctor himself says his fathers recovery after treatment opened his eyes to stem cells as a potential game-changer.

Speaking as a medical professional, its so frustrating when you cant really do anything for a patient, said Howe, the head of the radiology department at Toledo Hospital. You give them kind of a death sentence and you say, Well thats all you get. Theres nothing we can really offer. Its so sad. So now to be able to have on the brink of some huge hope for these patients is really, really exciting. As a medical professional, to me, theres never been anything more exciting in my entire career than this.

Murray does not blame people for being skeptical, and he agrees more research on the capabilities of stem cells is needed to show definitively what they can do. To say Murray is optimistic, however, would be a serious understatement.

Theres quite a few individuals out there who are calling themselves stem cell experts or this or that, kind of saying that theres no data to support that stem cells work on ischemic strokes, but thats really not true at all, Murray said. Theres at least 50 clinical studies that are going on across the world that are demonstrating its safety and working on demonstrating its efficacy, and the preliminary results on the ones that Ive seen are tremendous, so the data is clearly there. I think that people across the world in the next couple years are going to be as blown away as I was with our father when they see the power of stem cells and what they do for patients with not just stroke but with dementia and traumatic brain injuries and spinal cord injuries.

My dads case is by no means the only one, Murray continued. Hes kind of like in the middle. Theres examples of patients that have had a far greater result. Im so thrilled for my dad, but by no means was my dad a fluke or a random event. The studies are ongoing, and I think the point of any of the, I guess, naysayers is that Gordie Howe may be anecdotal and we need more research, and I totally agree with that. In fact, based on what weve seen with my father, I would say that we as a country and as a world should make a concerted effort to put as much time and energy as we can into investigating the power of stem cells because I really think that based on what Im seeing this is going to be a game-changer for medicine and a game-changer for quality of life for so many people that have non-option diseases like stroke or dementia.

Heading to Tijuana for treatment was a last-ditch effort to save Gordie, but it was not one the family undertook on a whim, Murray said.

Im well aware of hucksters and con games and this type of thing, and our family has never been about traveling the world to find the miracle cure, Murray said. Im a very mainstream physician. Ive always relied heavily on data and on long-term studies to prove the safety and efficacy of any treatment. For our father, we just our goal has always just been quality of life and comfort. When my mom was sick with her dementia that was our only priority was just keep her comfortable, keep her healthy, as healthy as possible, and keep her safe, and that was it. We had a number of people contact us saying, You know, we could help your mom with this pill and that pill, and I looked at everything that anybody presented to us, but to me there was nothing that showed any data that would made me want to experiment, if you will, with my mom.

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Gordie Howes Son Says Dads Recovery No Fluke, Excited For Future Of Stem Cell Treatment

Black South Africans make up about 47 percent of all cancer patients but only 5 percent of donors in the nations bone marrow registry. The gap between those who may need bone marrow or stem cell transplants, and those able to provide them has deadly consequences for cancer patients.

Black South Africans make up about 47 percent of all cancer patients but only 5 percent of donors in the nations bone marrow registry

Maphoko Nthane, 50, had experienced mysterious and severe backaches for months. Doctors ran test after test, but could find nothing wrong with Nthane.

I had a severe back ache for months, she told Health-e News. Whenever I would have that pain, I couldnt sit down I had to walk or stand up.

Doctors eventually diagnosed Nthane with Acute Lymphoblastic Leukaemia, a severe form of cancer affecting a patients blood and bone marrow.

After I was diagnosed I thought I was going to die I didnt know that people with leukaemia could live, Nthane said. My husband was just as traumatised and as a result he didnt know how to support me.

Nthanes cancer failed to respond to standard chemotherapy and ultimately a stem cell transplant saved her life.

As part of stem cell transplants, stem cells are removed from the tissue of donors or, where possible, patients. These cells are usually from human tissues including bone marrow or fat.

Once removed, the stem cells are given high doses of chemotherapy higher than what could be administered to patients before being transplanted into patients in the hope that they will kill other cancerous cells.

Nthane was lucky to find a stem cell donor.

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Deadly shortage of black stem cell donors

CHICAGO -- The International Society for Stem Cell Research's 13th annual meeting will take place June 24-27, 2015 at the Stockholmsmssan Exhibition and Convention Center in Stockholm, Sweden. The meeting will bring together approximately 4,000 stem cell scientists, bioethicists, clinicians and industry professionals from over 50 countries to present and discuss the latest discoveries and technologies within the field.

"The ISSCR is excited to bring its annual meeting to Stockholm, a city that shares our passion and reputation for great scientific research and collaboration," said ISSCR President Rudolf Jaenisch, M.D., Whitehead Institute for Biomedical Research. "We look forward to learning more about the strong work being done in Sweden and across Europe."

The meeting will open with the Presidential Symposium on June 24 from 1:15-3:15 p.m. local time. The symposium sets the stage for the meeting with world renowned speakers, including Nobel Prize winner Shinya Yamanaka. It is also the platform for the formal recognition of the 2015 recipients of the McEwen Award for Innovation and the ISSCR Public Service Award. Another prestigious award, the ISSCR-BD Biosciences Outstanding Young Investigator Award, will be presented during Plenary VI on June 27 from 9-11:20 a.m. and followed by an award lecture.

"I look forward to the Presidential Symposium setting the tone for the entire program," Jaenisch said. "A thread throughout will be the use of stem cells to drive our understanding of development and disease, as we explore disease modeling, gene and tissue engineering technologies and other important advances that are bringing stem cells into the clinic."

Presidential Symposium speakers will include:

Fred H. Gage, Ph.D., Salk Institute for Biological Sciences, U.S.

Jrgen Knoblich, Ph.D., Institute of Molecular Biotechnology, Austria

Shinya Yamanaka, M.D., Ph.D., Center for iPS Cell Research & Application, Japan

Jeannie Lee, M.D., Ph.D., Massachusetts General Hospital, U.S.

The McEwen Award for Innovation award winners (Presidential Symposium):

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The International Society for Stem Cell Research announces annual meeting details

How do Stemnexa Stem Cell Procedures Heal Orthopedic Damage? - Dr. Wade McKenna, Orthopedic Surgeon
Board-Certified Orthopedic Surgeon, Dr. McKenna explains how Stemnexa bone marrow stem cells augmented with AlphaGEMS amniotic tissue product works in the hu...

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Phytoscience Double Stemcell - Naturally Reverse Your Biological Clock
PhytoScience Double Stem Cell powder, a delicious proprietary blend of the signature stem cell extracts: - PhytoCellTec Malus Domestica (Apple Stem Cells) -...

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Knee arthritis one year after stem cell therapy by Harry Adelson, N.D.
Frank describes his outcome one year after stem cell therapy for his arthritic knee by Harry Adelson, N.D. http://www.docereclinics.com.

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Shoulder/Hip torn labrum 2 years and 5 months (respectively) after stem cell therapy by Adelson

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Durham, NC (PRWEB) February 27, 2015

Several studies showing the promise of stem cells for treating patients with heart failure have made headline news recently. However, all these studies dealt with adult patients only. New research appearing in this months STEM CELLS Translational Medicine shows that stem cells may have the same potential in treating children with congenital heart diseases that can lead to heart failure.

The study, undertaken by researchers at the Mayo Clinic in Rochester, Minn., looked at the feasibility and long-term safety of injecting autologous umbilical cord blood cells directly into the heart muscle at the pediatric stage of heart development. The study was conducted on pigs, due to their hearts similarity to human hearts.

The team injected the stem cells directly into the right ventricle of groups of three- and four-week old healthy piglets, and then compared the results to a control group that did not receive any cells. Over the next three months, the animals were monitored to assess cardiac performance and rhythm to determine how safe the procedure would be for humans.

During this follow-up period, we found no significant acute or chronic cardiac injury pattern caused by the injections directly into the heart, said lead author Timothy J. Nelson, M.D., Ph.D., of the Mayo Clinics Department of Medicine, and all the animals hearts appeared to be normal and healthy.

This led us to conclude that autologous stem cells from cord blood can be safely collected and surgically delivered to children. The study also establishes the foundation for cell-based therapy for children and aims to accelerate the science toward clinical trials for helping children with congenital heart disease that could benefit from a regenerative medicine strategy, he added.

The lead author, Susan Cantero Peral, M.D., Ph.D. commented, This work highlights the importance and utility of umbilical cord blood as it can be applied to new applications. Rather than discarding this sample at birth, individuals with congenital heart disease may one day be able to have these cells collected and processed in a specialized way to make them available for cardiac regeneration.

This work was funded by the Todd and Karen Wanek Family Program for Hypoplastic Left Heart Syndrome founded at the Mayo Clinic.

These data help establish the foundation of a cell-based therapy for juvenile hearts by showing that injections of autologous cells from cord blood are safe and feasible, said Anthony Atala, M.D., editor of STEM CELLS Translational Medicine and director of the Wake Forest Institute for Regenerative Medicine.

###

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Study Shows Stem Cells Have Potential to Help Kids Hearts, Too

Bengaluru, Feb 25, 2015, dhns:

Two courses of stem cell therapy have helped Ashok Kumar, 59, who suffered from tremors and rigidity due to Parkinsons disease, recover completely, much to the joy of his family.

The man was brought inside my cabin in a wheelchair. He was unable to even sit on the chair without support. Today, he walks independently. Stem cell therapy has made it possible for him, said Dr Naseem Sadiq, Director, Plexus Neuro and Stem Cell Research Centre, who began treating Kumar in October, last year.

Previously, medication and surgical procedure were the only treatment option for Parkinsons disease. Medication in the long-term often lacks effectiveness and may cause side effects, while surgery is not always feasible. Lately, stem cell therapy has turned out to be a boon for patients with Parkinsons, Dr Sadiq said.

Kumar is among the few who have benefited from stem cell therapy. However, though the State has been reporting an increase in the number of registered stem cell donors, it is far behind sufficient as the genetic match between donor and recipient could be anywhere between one in 10,000 and one in two million, according to experts.

Speaking to Deccan Herald, Raghu Rajgopal, co-founder, Datri, a registry for stem cell donation, said, The response we get from Karnataka when we conduct stem cell camps is great. We see a lot of people and registering with us.

As many as 6,000 people have registered from the State under the Datri registry. A total of 72,000 people have registered across the country. In Kerala, 11,000 have signed up, the highest so far, he said.

Among the common myths are that by donating stem cells one turns infertile and weak, have increased chances of cancer and also that there would be excess loss of blood, he said.

According to studies, over one lakh people are diagnosed with Leukemia (blood cancer) and other blood disorders every year in India.

The Indian Council of Medical Research has predicted that by the end of 2015, Leukemia cases will reach an estimated 1,17,649 and 1,32,574 by 2020. Stem cell therapy is a widely used treatment mechanism for Leukemia.

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Stem cell therapy a boon for Parkinson patients

Durham, NC (PRWEB) February 25, 2015

A new study published in the latest issue of STEM CELLS Translational Medicine reveals how a particular type of stem cell generated from fat tissue may outperform other types of stem cells in speeding up the healing of wounds caused by type 1 diabetes. In the study, ulcers in a mice model treated with these cells healed significantly faster than those treated with general types of stem cells.

Slow-healing wounds present one of the most common and perplexing complications associated with both type 1 and type 2 diabetes. If left untreated, they can lead to amputation, and even death. In fact, diabetes is the leading cause of non-traumatic lower limb amputation in the United States, according to the American Diabetes Association. Despite this, there are very few consistently effective treatments for speeding the wound-healing process in patients.

Addressing this issue, researchers at the University of Tokyo (UT) School of Medicine partnered with colleagues at the Research Center for Stem Cell Engineering, National Institute for Advanced Industrial Science and Technology (Ibaraki, Japan) to test whether a type of mesenchymal stem cell (MSC) called Muse, which is harvested from adult adipose tissue (that is, fat), might work better than other types of MSCs in treating diabetes wounds. Previous studies had shown that Muse which stands for multilineage differentiating stress-enduring cells do not have high proliferative activity, but they do generate multiple cell types of the three germ layers without inducing unfavorable tumors. Thus, Muse cells appear to be safer than other induced pluripotent or multipotent cells and might have better therapeutic potential than general (non-Muse) MSCs.

The study details how researchers isolated the Muse cells from human tissue and then injected them into skin ulcers in diabetic mice. Study leader Kotaro Yoshimura, M.D., of UTs Department of Plastic Surgery said that, After 14 days the mice treated with Muse-rich cells showed significantly accelerated wound healing compared to those treated with Muse-poor cells. The transplanted cells were integrated into the regenerated skin as vascular endothelial cells and other cells. However, they were not detected in the surrounding intact regions.

In fact, not only had the wounds of the mice treated with the Muse cells completely healed after the 14-day period, but the healed skin was thicker than that of the non-Muse treated wounds, too.

Were not sure yet why the Muse cells seem to work better, Dr. Yoshimura stated, but they expressed upregulated pluripotency markers and some angiogenic growth factors, and our animal results certainly suggest a clinical potential for them in the future. These cells can be achieved in large amounts with minimal morbidity and could be a practical tool for a variety of stem cell-depleted or ischemic conditions of various organs and tissues.

Fat tissue has been gaining attention as a practical source of adult stem cells, said Anthony Atala, M.D., Editor-in-Chief of STEM CELLS Translational Medicine and director of the Wake Forest Institute for Regenerative Medicine. This study suggests the future clinical potential for Muse cells.

###

The full article, Therapeutic Potential of Adipose-Derived SSEA-3-Positive Muse Cells for Treating Diabetic Skin Ulcers, can be accessed at http://www.stemcellstm.com.

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Researchers Hone in on Stem Cell that Speeds Healing of Stubborn Diabetes Wounds

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A new study led by researchers at The Scripps Research Institute (TSRI) and the University of California (UC), San Diego School of Medicine shows that certain stem cell culture methods are associated with increased DNA mutations. The study points researchers toward safer and more robust methods of growing stem cells to treat disease and injury.

"This is about quality control; we're making sure these cells are safe and effective," said Jeanne Loring, a professor of developmental neurobiology at TSRI and senior author of the study with Louise Laurent, assistant professor at UC San Diego.

Laurent added, "The processes used to maintain and expand stem cell cultures for cell replacement therapies needs to be improved, and the resulting cells carefully tested before use."

The findings were published February 25 in the open-access journal PLOS ONE.

Growing Stem Cells

Because these human stem cells, called "pluripotent stem cells," can differentiate into many types of cells, they could be key to reversing degenerative diseases, such as Parkinson's disease, or repairing injured tissue, such as cardiac muscle after a heart attack. Stem cells are relatively rare in the body, however, so researchers must culture them in dishes.

While all cells run the risk of mutating when they divide, previous research from Loring and her colleagues suggested that stem cell culturing may select for mutations that favor faster cell growth and are sometimes associated with tumors.

"Most changes will not compromise the safety of the cells for therapy, but we need to monitor the cultures so that we know what sorts of changes take place," said the paper's first author Ibon Garitaonandia, a postdoctoral researcher working in Loring's lab at the time of the study.

How to Reduce Mutations

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New study shows safer methods for stem cell culturing

Fayetteville, Arkansas (PRWEB) February 19, 2015

CardioWise, Inc. has completed development of the first fully integrated version of its Multiparametric Strain Analysis Software (MPSA) and has installed it at the National Institutes of Health (NIH), National Heart, Lung, and Blood Institute (NHLBI). MPSA software is being used in clinical research protocol number 12-H-0078, sponsored by the NHLBI entitled, Preliminary Assessment of Direct Intra-Myocardial Injection of Autologous Bone Marrow-derived Stromal Cells on Patients Undergoing Revascularization for Coronary Artery Disease (CAD) with Depressed Left Ventricular Function. The Principle Investigator is Dr. Keith A. Horvath, the Director of Cardiothoracic Surgery at the NHLBI and Chief of Cardiothoracic Surgery at Suburban Hospital, where he leads the NIH Heart Center. Details of the study are available here: http://clinicalstudies.info.nih.gov/cgi/wais/bold032001.pl?A_12-H-0078.html@mesenchymal@@@@.

The recently completed integrated version of CardioWise analysis software has been installed at the NIH; and, Dr. Justin Miller, and Dr. Ming Li, both research fellows in the Cardiothoracic Surgery Research Program of the NHLBI, have been trained on its operation and use. They were assigned to the project by Dr. Horvath and Dr. Andrew Arai, Chief of the Advanced Cardiovascular Imaging Research Group in the NHLBIs Division of Intramural Research. CardioWise has completed validation testing of its software and the analyses of the first two patient cardiac MRI (CMR) data sets are in process. The patients who enrolled in the protocol received one baseline CMR scan and three additional follow-up CMR scans. Those CMR scans are being analyzed by CardioWise analysis software and the analyses will be compared to determine whether stem cell injections can improve the contractile function of the heart muscle by repairing damaged tissue.

The installation at the NIH under a Beta site agreement signed in 2014 marks the first clinical test of CardioWise MPSA software outside of Washington University School of Medicine in St. Louis, where it was developed. CardioWise has obtained the exclusive worldwide license for the patent-pending software and accompanying normal hearts database from Washington University in St. Louis. The companys MPSA software is uniquely capable of analyzing the three-dimensional motion of the heart that is acquired from cardiac MRI images and then comparing the analysis at 15,300 points to the motion of a normal heart model. The analysis detects portions of the heart that are moving abnormally and demonstrates to what degree the heart muscle has been affected. Since MRI uses no ionizing radiation or contrast, it is completely non-invasive and poses minimal risk to the patient. This allows the patient to be followed through the course of treatment and to measure outcomes of interventions such as the stem cell therapy currently being evaluated. In the near future, CardioWise MPSA may aid doctors to determine what intervention, such as surgery, stent insertion, or drug is most appropriate for the patient who presents with cardiovascular disease symptoms.

CardioWise is commercializing patent-pending, non-invasive Cardiac Magnetic Resonance Imaging (CMR) analysis software that produces a quantified 4D image model of the human heart, called Multiparametric Strain Analysis (MPSA). CardioWise heart analysis software combined with cardiac MRI is a single diagnostic test that is able to provide quantitative analysis of the myocardium, arteries and valves with an unprecedented level of detail. It has the opportunity to become the new gold standard of care for heart health analysis. CardioWise is a VIC Technology Venture Development portfolio company.

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CardioWise Completes Installation of the First Totally Integrated CardioWise Analysis Software at National Institutes ...

Scientists have found that reducing the size of tiny hair like structures on stem cells stops them turning into fat. The discovery could be used to develop a way of preventing obesity.

The research, conducted at Queen Mary University of London (QMUL), found that a slight regulation in the length of primary cilia, small hair-like projections found on most cells, prevented the production of fat cells from human stem cells taken from adult bone marrow.

Part of the process by which calories are turned into fat involves adipogenesis, the differentiation of stem cells into fat cells. The researchers showed that during this process of adipogenesis, the length of primary cilia increases associated with movement of specific proteins onto the cilia. Furthermore, by genetically restricting this cilia elongation in stem cells the researchers were able to stop the formation of new fat cells.

Recent research has found that many conditions including kidney disease, blindness, problems with bones and obesity can be caused by defects in primary cilia.

Melis Dalbay, co-author of the research from the School of Engineering and Materials Science at QMUL, said: This is the first time that it has been shown that subtle changes in primary cilia structure can influence the differentiation of stem cell into fat. Since primary cilia length can be influenced by various factors including pharmaceuticals, inflammation and even mechanical forces, this study provides new insight into the regulation of fat cell formation and obesity.

Professor Martin Knight, a bioengineer and lead author of the research, said: This research points towards a new type of treatment known as cilia-therapy where manipulation of primary cilia may be used in future to treat a growing range of conditions including obesity, cancer, inflammation and arthritis.

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The above story is based on materials provided by University of Queen Mary London. Note: Materials may be edited for content and length.

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Changing stem cell structure may help fight obesity

How about Stem Cell Therapy for LBD, Nova Cells Institute stem cells
Nova Cells Institute makes a difference because we care - like the Bumble Bee - doing the impossible- http://www.novacellsinstitute.com.

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Portland, Oregon and Miami, Fla. (PRWEB) February 10, 2015

Global Stem Cells Group and the Regenerative Technology Alliance (RTA) have signed a memorandum of understanding to evaluate and promote stem cell training programs. RTA, a global provider of standards and certification for the emerging fields of regenerative medicine and science, will work with the Global Stem Cells Group to evaluate the regenerative medicine companys training programs and assess GSCGs participating physicians against the RTAs established international standards for the practice of regenerative and cell-based medicine.

Our new alliance with the RTA is a natural step toward establishing GSCGs recognition as a global leader in stem cell medicine, says Global Stem Cells Group CEO Benito Novas. This is a perfect fit for us, as Global Stem Cells Group shares the RTAs focus on high standards and transparency, especially when it comes to patient safety and advancing the field of stem cell medicine.

We are very pleased to have this alliance, says David Audley, General Secretary and Chair of the RTA. Our goal is to provide the highest level of transparency and oversight for the industry. Working with Global will allow us to have a direct and dramatic impact on physician training.

For more information, visit the Global Stem Cells Group website, email bnovas(at)stemcellsgroup(dot)com, or call 305-224-1858.

About Global Stem Cells Group:

Global Stem Cells Group, Inc. is the parent company of six wholly owned operating companies dedicated entirely to stem cell research, training, products, and solutions. Founded in 2012, the company combines dedicated researchers, physician and patient educators, and solution providers with the shared goal of meeting the growing worldwide need for leading edge stem cell treatments and solutions. With a singular focus on this exciting new area of medical research, Global Stem Cells Group and its subsidiaries are uniquely positioned to become global leaders in cellular medicine.

About the RTA

The Regenerative Technology Alliance (RTA) a global provider of standards and certification for the emerging fields of regenerative medicine and science, is a 501(c)3 and is supported by donations from individuals, corporations and foundations to help advance its critical mission of bringing peer oversight and transparency to the field of cell-based and regenerative medicine.

For more information visit the RTA website, email david(at)regen-tech(dot)org, or call 503-446-5039.

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FAQ Part 4: MEsenchymal Stem cell therapy for CAnadian MS patients (MESCAMS)
The Multiple Sclerosis Society of Canada and the Multiple Sclerosis Scientific Research Foundation have announced a $4.2 million grant in support of the MEsenchymal Stem cell therapy for CAnadian.

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Freeport, Grand Bahama (PRWEB) February 04, 2015

In just a few short months since Okyanos opened its doors, remarkable results are becoming a daily reality. In light of these mounting successes, Okyanos, the leader in cell therapy, has augmented its adult stem cell therapy for severe heart disease and expanded their offerings to include treatments for patients with other chronic unmet needs. Now, patients like Patsy and Dylan are experiencing the tangible benefits that Okyanos cell therapy provides.

Patsy, 72 years old, lived a normal life until 2012 when a diagnosis of congestive heart failure (CHF) put a halt to her active lifestyle. Patsys health quickly deteriorated. Despite open heart surgery, a pacemaker and medications, all were insufficient to arrest her physical decline. Faced with a heart transplant as her next option and fearful of the idea, Patsy began searching for another alternative.

I was looking at going to Mexico, and my cardiologist was talking to me about being a part of a clinical trial where they inject two different kinds of drugs into the heart, but I was hesitant about that idea and worried I would get the placebo. A friend knew I had a heart problem, and she recommended Okyanos.

Patsys arrival at Okyanos quickly allayed any apprehension as she said, I couldnt ask to be treated any better than if they were my own sisters or brothers. It was truly amazing. You just dont get that kind of care in regular hospitals.

After just a few short months since her mid-October (2014) treatment with Okyanos cell therapy, Patsy is noticing improvements. Im doing better. I can already tell the difference. Im getting up the stairs more easily. Im doing the laundry again. I have more energy, and when you have more energy and you feel better, your point of view on life is betterit really makes a big difference.

Dylan is another success. At 16, Dylan had dreamt of a career playing tennis but began experiencing extreme pain with his hips locking up, causing him to fall to the ground. He was diagnosed with a rare condition that causes abnormal growth of tissue lining the joints that can later break off and damage cartilage. After 2 surgeries to clean out his hips, constant pain and an inability to walk without a limp, run or bend over, the condition worsened. After speaking with doctors, it was clear that continuation of regular surgeries would further deteriorate Dylans hips. Determined to see her son walk normally, Dylans mother discovered Okyanos and both decided to move forward with cell therapy.

Dylan underwent cell therapy wherein stem cells were separated from his own fat tissue for direct injections into the hip as well as delivery by IV to address underlying causes of ischemia, inflammation and abnormal immune response. Ten days later, Dylan was pain-free and able to walk normally, run and bend over.

Im pinching myself. Its amazing. No, its miraculous! says Elena about her sons recovery. If Dylan had not had the cell therapy, we would have kept doing other treatments and crossed our fingers. At 20 years old, his future would have been hip replacement surgery and a lifetime of problems walking, painful movement and an inability to bend down.

Stem cell therapy is a relatively simple and minimally-invasive same-day procedurea stark contrast from open heart surgery or hip surgeryyet offers patients the hope of a more normal life. Patients like Patsy concur, Its going to give people hope. And give them a life. You get to a point with a body where you push and push and run out of energy. Thats not really life to me. I think stem cell therapy can give back life.

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Okyanos Cell Therapy Success Brings Hope for a Normal Life

London, UK (PRWEB) February 03, 2015

Over the next few years, the stem cells market is poised to continue to be the most rapidly growing segment, which includes the segments for concentrated bone marrow and stem cell bone grafts. Stem cells provide greater osteogenesis and osteoinductive properties than other bone grafts, and thus enhance bone repair. To date, their usage is only considered for the treatment of spine cord injuries, but the market is likely to witness further expansion in case other indications are approved, such as with the foot where a number of patients may experience poor vascularisation.

The orthopedic biomaterials market in the USA is forecast to gain traction through 2021. The ageing population is a key factor driving the market. In tandem with the surging ageing population, the incidence rates of osteoarthritis and other types of degenerative disorders are also expected to grow, thus driving the demand for orthopedic biomaterials. Additionally, a huge portion of the overall biomaterial products market is engaged in treating soft tissue injuries, and most of them are sport-related. However, high costs of the development of some products could hinder the sectors growth. Furthermore, the timeliness of a products final approval is often hard to foretell.

Medtronic dominated the orthopedic biomaterials market as of 2014, due to the lions share of the bone graft substitute sector. The company announced in June 2014 its intention to buy Covidien for USD 42.9 billion.

In-demand study U.S. Orthopedic Biomaterials Market worked out by iData Research has been recently published at MarketPublishers.com.

Report Details:

Title: U.S. Orthopedic Biomaterials Market Published: January, 2015 Pages: 288 Price: US$ 6,995.00 http://marketpublishers.com/report/medical_devices/orthopedic/us-orthopedic-biomaterials-market.html

The research report contains an all-encompassing analysis and forecast of the orthopedic biomaterials market across the USA up to 2021. It provides detailed market analyses of leading market segments, including bone graft substitutes, hyaluronic acid viscosupplementation, orthopedic stem cells, growth factors, cartilage repair, cell therapy, and machined bone allografts; the categories are further subdivided into subcategories by various parameters. The study identifies the game-changing opportunities and potential hazards in the market, traces the key trends and technologies expected to impact the overall market and each of its individual segments in the years to come, as well as sheds light on the market drivers and restraints. Essential information on the number of procedures is provided. Furthermore, the research study canvasses the competitive landscape as well as discusses the top 22 companies along with their success strategies, M&As, etc.

Report Scope:

More in-demand reports by the publisher can be found at iData Research page.

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What Happens When Stem Cells Go Into My Heart?
Renowned cardiologist, stem cell therapy expert and Okyanos Chief Science Officer Leslie Miller, MD, FACC, explains the importance of generating new blood ve...

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